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/*
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Copyright ( c ) 2006 - 2020 Chung , Hyung - Hwan . All rights reserved .
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Redistribution and use in source and binary forms , with or without
modification , are permitted provided that the following conditions
are met :
1. Redistributions of source code must retain the above copyright
notice , this list of conditions and the following disclaimer .
2. Redistributions in binary form must reproduce the above copyright
notice , this list of conditions and the following disclaimer in the
documentation and / or other materials provided with the distribution .
THIS SOFTWARE IS PROVIDED BY THE AUTHOR " AS IS " AND ANY EXPRESS OR
IMPLIED WARRANTIES , INCLUDING , BUT NOT LIMITED TO , THE IMPLIED WARRANTIES
OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED .
IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT , INDIRECT ,
INCIDENTAL , SPECIAL , EXEMPLARY , OR CONSEQUENTIAL DAMAGES ( INCLUDING , BUT
NOT LIMITED TO , PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES ; LOSS OF USE ,
DATA , OR PROFITS ; OR BUSINESS INTERRUPTION ) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY , WHETHER IN CONTRACT , STRICT LIABILITY , OR TORT
( INCLUDING NEGLIGENCE OR OTHERWISE ) ARISING IN ANY WAY OUT OF THE USE OF
THIS SOFTWARE , EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE .
*/
# ifndef _HAWK_H_
# define _HAWK_H_
# include <hawk-cmn.h>
# include <hawk-ecs.h>
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# include <hawk-gem.h>
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# include <hawk-tre.h>
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# include <hawk-utl.h>
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# include <hawk-htb.h> /* for rtx->named */
# define HAWK_MAP_IS_RBT
# include <hawk-map.h>
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# include <hawk-arr.h>
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# include <stdarg.h>
/** \file
* An embeddable AWK interpreter is defined in this header file .
*
* \ todo
* - make enhancement to treat a function as a value
* - improve performance of hawk_rtx_readio ( ) if RS is logner than 2 chars .
* - consider something like $ { 1 : 3 , 5 } = > $ 1 , $ 2 , $ 3 , and $ 5 concatenated
*/
/** \struct hawk_t
* The # hawk_t type defines an AWK interpreter . It provides an interface
* to parse an AWK script and run it to manipulate input and output data .
*
* In brief , you need to call APIs with user - defined handlers to run a typical
* AWK script as shown below :
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*
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* \ code
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* hawk_t * hawk ;
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* hawk_rtx_t * rtx ;
* hawk_sio_cbs_t sio ; // need to initialize it with callback functions
* hawk_rio_cbs_t rio ; // need to initialize it with callback functions
*
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* hawk = hawk_open ( mmgr , 0 , prm ) ; // create an interpreter
* hawk_parse ( hawk , & sio ) ; // parse a script
* rtx = hawk_rtx_open ( hawk , 0 , & rio ) ; // create a runtime context
* retv = hawk_rtx_loop ( rtx ) ; // run a standard AWK loop
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* if ( retv ) hawk_rtx_refdownval ( rtx , retv ) ; // free return value
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* hawk_rtx_close ( rtx ) ; // destroy the runtime context
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* hawk_close ( hawk ) ; // destroy the interpreter
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* \ endcode
*
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* It provides an interface to change the conventional behavior of the
* interpreter ; most notably , you can call a particular function with
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* hawk_rtx_call ( ) instead of entering the BEGIN , pattern - action blocks , END
* loop . By doing this , you may utilize a script in an event - driven way .
*
* \ sa hawk_rtx_t hawk_open hawk_close
*/
# define HAWK_HDR \
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hawk_oow_t _instsize ; \
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hawk_gem_t _gem
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typedef struct hawk_alt_t hawk_alt_t ;
struct hawk_alt_t
{
/* ensure that hawk_alt_t matches the beginning part of hawk_t */
HAWK_HDR ;
} ;
/** \struct hawk_rtx_t
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* The # hawk_rtx_t type defines a runtime context . A runtime context
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* maintains runtime state for a running script . You can create multiple
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* runtime contexts out of a single AWK interpreter ; in other words , you
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* can run the same script with different input and output data by providing
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* customized I / O handlers when creating a runtime context with
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* hawk_rtx_open ( ) .
*
* I / O handlers are categoriezed into three kinds : console , file , pipe .
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* The # hawk_rio_t type defines as a callback a set of I / O handlers
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* to handle runtime I / O :
* - getline piped in from a command reads from a pipe .
* ( " ls -l " | getline line )
* - print and printf piped out to a command write to a pipe .
* ( print 2 | " sort " )
* - getline redirected in reads from a file .
* ( getline line < " file " )
* - print and printf redirected out write to a file .
* ( print num > " file " )
* - The pattern - action loop and getline with no redirected input
* read from a console . ( / susie / { . . . } )
* - print and printf write to a console . ( print " hello, world " )
*
* \ sa hawk_t hawk_rtx_open hawk_rio_t
*/
typedef struct hawk_rtx_t hawk_rtx_t ;
# define HAWK_RTX_HDR \
hawk_oow_t _instsize ; \
hawk_gem_t _gem ; \
int id ; \
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hawk_t * hawk
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typedef struct hawk_rtx_alt_t hawk_rtx_alt_t ;
struct hawk_rtx_alt_t
{
/* ensure that hawk_rtx_alt_t matches the beginning part of hawk_rtx_t */
HAWK_RTX_HDR ;
} ;
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/* ------------------------------------------------------------------------ */
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/* garbage collection header */
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typedef struct hawk_gch_t hawk_gch_t ;
struct hawk_gch_t
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{
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hawk_gch_t * gc_prev ;
hawk_gch_t * gc_next ;
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hawk_uintptr_t gc_refs ;
} ;
# if defined(HAWK_HAVE_INLINE)
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static HAWK_INLINE hawk_val_t * hawk_gch_to_val ( hawk_gch_t * gch )
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{
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return ( hawk_val_t * ) ( gch + 1 ) ;
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}
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static HAWK_INLINE hawk_gch_t * hawk_val_to_gch ( hawk_val_t * v )
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{
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return ( ( hawk_gch_t * ) v ) - 1 ;
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}
# else
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# define hawk_val_to_gch(v) (((hawk_gch_t*)(v)) - 1)
# define hawk_gch_to_val(gch) ((hawk_val_t*)(((hawk_gch_t*)(gch)) + 1))
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# endif
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/**
* The # HAWK_VAL_HDR defines the common header for a value .
* Three common fields are :
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* - v_refs - reference count
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* - v_type - type of a value from # hawk_val_type_t
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* - v_static - static value indicator
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* - v_nstr - numeric string marker , 1 - > integer , 2 - > floating - point number
* - v_gc - used for garbage collection together with v_refs
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*
* [ IMPORTANT ]
* if you change the order of these fields , you must ensure that statically
* defined values follow this order strictly . for example , hawk_nil , hawk_zls ,
* hawk_zlbs are defined statically in val . c
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*/
/*
# define HAWK_VAL_HDR \
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unsigned int v_refs : 24 ; \
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unsigned int v_type : 4 ; \
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unsigned int v_static : 1 ; \
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unsigned int v_nstr : 2 ; \
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unsigned int v_gc : 1
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# define HAWK_VAL_HDR \
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hawk_uintptr_t v_refs : ( ( HAWK_SIZEOF_UINTPTR_T * 8 ) - 8 ) ; \
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hawk_uintptr_t v_type : 4 ; \
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hawk_uintptr_t v_static : 1 ; \
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hawk_uintptr_t v_nstr : 2 ; \
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hawk_uintptr_t v_gc : 1
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*/
/* regardless of architecture, use 4-byte reference count */
# define HAWK_VAL_HDR \
hawk_uint32_t v_refs ; \
hawk_uint8_t v_type : 4 ; \
hawk_uint8_t v_static : 1 ; \
hawk_uint8_t v_nstr : 2 ; \
hawk_uint8_t v_gc : 1
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/**
* The hawk_val_t type is an abstract value type . A value commonly contains :
* - type of a value
* - reference count
* - indicator for a numeric string
*/
struct hawk_val_t
{
HAWK_VAL_HDR ;
} ;
/**
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* The hawk_val_nil_t type is a nil value type . The type field is
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* # HAWK_VAL_NIL .
*/
struct hawk_val_nil_t
{
HAWK_VAL_HDR ;
} ;
typedef struct hawk_val_nil_t hawk_val_nil_t ;
/**
* The hawk_val_int_t type is an integer number type . The type field is
* # HAWK_VAL_INT .
*/
struct hawk_val_int_t
{
HAWK_VAL_HDR ;
hawk_int_t i_val ;
void * nde ;
} ;
typedef struct hawk_val_int_t hawk_val_int_t ;
/**
* The hawk_val_flt_t type is a floating - point number type . The type field
* is # HAWK_VAL_FLT .
*/
struct hawk_val_flt_t
{
HAWK_VAL_HDR ;
hawk_flt_t val ;
void * nde ;
} ;
typedef struct hawk_val_flt_t hawk_val_flt_t ;
/**
* The hawk_val_str_t type is a string type . The type field is
* # HAWK_VAL_STR .
*/
struct hawk_val_str_t
{
HAWK_VAL_HDR ;
hawk_oocs_t val ;
} ;
typedef struct hawk_val_str_t hawk_val_str_t ;
/**
* The hawk_val_str_t type is a string type . The type field is
* # HAWK_VAL_MBS .
*/
struct hawk_val_mbs_t
{
HAWK_VAL_HDR ;
hawk_bcs_t val ;
} ;
typedef struct hawk_val_mbs_t hawk_val_mbs_t ;
/**
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* The hawk_val_rex_t type is a regular expression type . The type field
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* is # HAWK_VAL_REX .
*/
struct hawk_val_rex_t
{
HAWK_VAL_HDR ;
hawk_oocs_t str ;
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hawk_tre_t * code [ 2 ] ;
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} ;
typedef struct hawk_val_rex_t hawk_val_rex_t ;
/**
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* The hawk_val_map_t type defines a map type . The type field is
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* # HAWK_VAL_MAP .
*/
struct hawk_val_map_t
{
HAWK_VAL_HDR ;
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/* TODO: make val_map to array if the indices used are all
* integers switch to map dynamically once the
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* non - integral index is seen .
*/
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hawk_map_t * map ;
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} ;
typedef struct hawk_val_map_t hawk_val_map_t ;
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/**
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* The hawk_val_arr_t type defines a arr type . The type field is
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* # HAWK_VAL_MAP .
*/
struct hawk_val_arr_t
{
HAWK_VAL_HDR ;
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/* TODO: make val_arr to array if the indices used are all
* integers switch to arr dynamically once the
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* non - integral index is seen .
*/
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hawk_arr_t * arr ;
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} ;
typedef struct hawk_val_arr_t hawk_val_arr_t ;
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/**
* The hawk_val_ref_t type defines a reference type that is used
* internally only . The type field is # HAWK_VAL_REF .
*/
struct hawk_val_ref_t
{
HAWK_VAL_HDR ;
enum
{
/* keep these items in the same order as corresponding items
* in hawk_nde_type_t . */
HAWK_VAL_REF_NAMED , /**< plain named variable */
HAWK_VAL_REF_GBL , /**< plain global variable */
HAWK_VAL_REF_LCL , /**< plain local variable */
HAWK_VAL_REF_ARG , /**< plain function argument */
HAWK_VAL_REF_NAMEDIDX , /**< member of named map variable */
HAWK_VAL_REF_GBLIDX , /**< member of global map variable */
HAWK_VAL_REF_LCLIDX , /**< member of local map variable */
HAWK_VAL_REF_ARGIDX , /**< member of map argument */
HAWK_VAL_REF_POS /**< positional variable */
} id ;
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/* if id is HAWK_VAL_REF_POS, adr holds the index of a
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* positional variable . If id is HAWK_VAL_REF_GBL , adr hold
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* the index of a global variable . Otherwise , adr points to the value
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* directly . */
hawk_val_t * * adr ;
} ;
typedef struct hawk_val_ref_t hawk_val_ref_t ;
/**
* The hawk_val_map_itr_t type defines the iterator to map value fields .
*/
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typedef hawk_map_itr_t hawk_val_map_itr_t ;
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/**
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* The # HAWK_VAL_MAP_ITR_KEY macro get the pointer to the key part
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* of a map value .
*/
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# define HAWK_VAL_MAP_ITR_KEY(itr) ((const hawk_oocs_t*)HAWK_MAP_KPTL((itr)->pair))
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/**
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* The # HAWK_VAL_MAP_ITR_VAL macro get the pointer to the value part
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* of a map value .
*/
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# define HAWK_VAL_MAP_ITR_VAL(itr) ((const hawk_val_t*)HAWK_MAP_VPTR((itr)->pair))
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/**
* The hawk_val_map_data_type_t type defines the type of
* map value data for the # hawk_val_map_data_t structure .
*/
enum hawk_val_map_data_type_t
{
HAWK_VAL_MAP_DATA_INT = 0 ,
HAWK_VAL_MAP_DATA_FLT ,
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HAWK_VAL_MAP_DATA_OOCSTR ,
HAWK_VAL_MAP_DATA_BCSTR ,
HAWK_VAL_MAP_DATA_UCSTR ,
HAWK_VAL_MAP_DATA_OOCS ,
HAWK_VAL_MAP_DATA_BCS ,
HAWK_VAL_MAP_DATA_UCS
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} ;
typedef enum hawk_val_map_data_type_t hawk_val_map_data_type_t ;
/**
* The hawk_val_map_data_t type defines a structure that
* describes a key / value pair for a map value to be created
* with hawk_makemapvalwithdata ( ) .
*/
struct hawk_val_map_data_t
{
hawk_oocs_t key ;
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hawk_val_map_data_type_t type : 8 ;
unsigned int type_size : 16 ; /* size information that supplements the type */
/* maybe there are some unused bits here as this struct is not packed */
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void * vptr ;
} ;
typedef struct hawk_val_map_data_t hawk_val_map_data_t ;
/* ------------------------------------------------------------------------ */
/**
* The hawk_nde_type_t defines the node types .
*/
enum hawk_nde_type_t
{
HAWK_NDE_NULL ,
/* statement */
HAWK_NDE_BLK ,
HAWK_NDE_IF ,
HAWK_NDE_WHILE ,
HAWK_NDE_DOWHILE ,
HAWK_NDE_FOR ,
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HAWK_NDE_FORIN ,
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HAWK_NDE_BREAK ,
HAWK_NDE_CONTINUE ,
HAWK_NDE_RETURN ,
HAWK_NDE_EXIT ,
HAWK_NDE_NEXT ,
HAWK_NDE_NEXTFILE ,
HAWK_NDE_DELETE ,
HAWK_NDE_RESET ,
/* expression */
/* if you change the following values including their order,
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* you should change __evaluator of eval_expression0 ( )
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* in run . c accordingly */
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HAWK_NDE_GRP ,
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HAWK_NDE_ASS ,
HAWK_NDE_EXP_BIN ,
HAWK_NDE_EXP_UNR ,
HAWK_NDE_EXP_INCPRE ,
HAWK_NDE_EXP_INCPST ,
HAWK_NDE_CND ,
HAWK_NDE_FNCALL_FNC ,
HAWK_NDE_FNCALL_FUN ,
HAWK_NDE_FNCALL_VAR ,
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HAWK_NDE_CHAR ,
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HAWK_NDE_BCHR ,
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HAWK_NDE_INT ,
HAWK_NDE_FLT ,
HAWK_NDE_STR ,
HAWK_NDE_MBS ,
HAWK_NDE_REX ,
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HAWK_NDE_XNIL ,
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HAWK_NDE_XARG ,
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HAWK_NDE_FUN ,
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/* keep this order for the following items otherwise, you may have
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* to change eval_incpre and eval_incpst in run . c as well as
* HAWK_VAL_REF_XXX in hawk_val_ref_t . also do_assignment_map ( )
* in run . c converts HAWK_NDE_XXXIDX to HAWK_NDE_XXX by
* decrementing by 4. */
HAWK_NDE_NAMED ,
HAWK_NDE_GBL ,
HAWK_NDE_LCL ,
HAWK_NDE_ARG ,
HAWK_NDE_NAMEDIDX ,
HAWK_NDE_GBLIDX ,
HAWK_NDE_LCLIDX ,
HAWK_NDE_ARGIDX ,
HAWK_NDE_POS ,
/* ---------------------------------- */
HAWK_NDE_GETLINE ,
HAWK_NDE_PRINT ,
HAWK_NDE_PRINTF
} ;
typedef enum hawk_nde_type_t hawk_nde_type_t ;
# define HAWK_NDE_HDR \
hawk_nde_type_t type ; \
hawk_loc_t loc ; \
hawk_nde_t * next
/** \struct hawk_nde_t
* The hawk_nde_t type defines a common part of a node .
*/
typedef struct hawk_nde_t hawk_nde_t ;
struct hawk_nde_t
{
HAWK_NDE_HDR ;
} ;
/* ------------------------------------------------------------------------ */
/**
* The hawk_fun_t type defines a structure to maintain functions
* defined with the keyword ' function ' .
*/
struct hawk_fun_t
{
hawk_oocs_t name ;
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hawk_oow_t nargs ;
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hawk_ooch_t * argspec ; /* similar to the argument spec of hawk_fnc_arg_t. supports v & r only. neither R nor x is set internally. */
hawk_oow_t argspeclen ; /* the length of argspec. it can be different from nargs if there are call-by-value parameters after the last call-by-reference parameter or variadic arguments are supported */
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int variadic ;
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hawk_nde_t * body ;
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} ;
typedef struct hawk_fun_t hawk_fun_t ;
struct hawk_val_fun_t
{
HAWK_VAL_HDR ;
hawk_fun_t * fun ;
} ;
typedef struct hawk_val_fun_t hawk_val_fun_t ;
/* ------------------------------------------------------------------------ */
typedef hawk_flt_t ( * hawk_math1_t ) (
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hawk_t * hawk ,
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hawk_flt_t x
) ;
typedef hawk_flt_t ( * hawk_math2_t ) (
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hawk_t * hawk ,
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hawk_flt_t x ,
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hawk_flt_t y
) ;
/* ------------------------------------------------------------------------ */
typedef struct hawk_mod_spec_t hawk_mod_spec_t ;
struct hawk_mod_spec_t
{
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const hawk_ooch_t * libdir ;
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const hawk_ooch_t * prefix ;
const hawk_ooch_t * postfix ;
const hawk_ooch_t * name ;
} ;
typedef void * ( * hawk_mod_open_t ) (
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hawk_t * hawk ,
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const hawk_mod_spec_t * spec
) ;
typedef void * ( * hawk_mod_getsym_t ) (
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hawk_t * hawk ,
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void * handle ,
const hawk_ooch_t * name
) ;
typedef void ( * hawk_mod_close_t ) (
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hawk_t * hawk ,
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void * handle
) ;
/* ------------------------------------------------------------------------ */
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typedef void ( * hawk_log_write_t ) (
hawk_t * hawk ,
hawk_bitmask_t mask ,
const hawk_ooch_t * msg ,
hawk_oow_t len
) ;
/* ------------------------------------------------------------------------ */
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#if 0
typedef void * ( * hawk_buildrex_t ) (
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hawk_t * hawk ,
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const hawk_ooch_t * ptn ,
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hawk_oow_t len
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) ;
typedef int ( * hawk_matchrex_t ) (
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hawk_t * hawk ,
void * code ,
int option ,
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const hawk_ooch_t * str ,
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hawk_oow_t len ,
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const hawk_ooch_t * * mptr ,
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hawk_oow_t * mlen
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) ;
typedef void ( * hawk_freerex_t ) (
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hawk_t * hawk ,
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void * code
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) ;
typedef int ( * hawk_isemptyrex_t ) (
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hawk_t * hawk ,
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void * code
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) ;
# endif
/**
* The hawk_sio_cmd_t type defines I / O commands for a script stream .
*/
enum hawk_sio_cmd_t
{
HAWK_SIO_CMD_OPEN = 0 , /**< open a script stream */
HAWK_SIO_CMD_CLOSE = 1 , /**< close a script stream */
HAWK_SIO_CMD_READ = 2 , /**< read text from an input script stream */
HAWK_SIO_CMD_WRITE = 3 /**< write text to an output script stream */
} ;
typedef enum hawk_sio_cmd_t hawk_sio_cmd_t ;
/**
* The hawk_sio_lxc_t type defines a structure to store a character
* with its location information .
*/
struct hawk_sio_lxc_t
{
hawk_ooci_t c ; /**< character */
hawk_oow_t line ; /**< line */
hawk_oow_t colm ; /**< column */
const hawk_ooch_t * file ; /**< file */
} ;
typedef struct hawk_sio_lxc_t hawk_sio_lxc_t ;
typedef struct hawk_sio_arg_t hawk_sio_arg_t ;
/**
* The hawk_sio_arg_t type defines a structure to describe the source
* stream .
*/
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struct hawk_sio_arg_t
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{
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/**
* [ IN ] name of I / O object .
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* It is # HAWK_NULL for the top - level stream . It points to a stream name
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* for an included stream .
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*/
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const hawk_ooch_t * name ;
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/**
* [ OUT ] I / O handle set by a handler .
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* The source stream handler can set this field when it opens a stream .
* All subsequent operations on the stream see this field as set
* during opening .
*/
void * handle ;
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/**
* [ OUT ] path name resolved of the name above . the handler must set this
* to a proper path if the name is not # HAWK_NULL .
*/
hawk_ooch_t * path ;
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/**
* [ OUT ] unique id set by an input handler . it is used for a single time inclusion check .
*/
hawk_uint8_t unique_id [ HAWK_SIZEOF_INTPTR_T * 2 ] ;
/**
* [ IN ] points to the includer . # HAWK_NULL for the toplevel .
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*
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*/
hawk_sio_arg_t * prev ;
/*-- from here down, internal use only --*/
struct
{
hawk_ooch_t buf [ 1024 ] ;
hawk_oow_t pos ;
hawk_oow_t len ;
} b ;
hawk_oow_t line ;
hawk_oow_t colm ;
hawk_sio_lxc_t last ;
int pragma_trait ;
} ;
/**
* The hawk_sio_impl_t type defines a source IO function
*/
typedef hawk_ooi_t ( * hawk_sio_impl_t ) (
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hawk_t * hawk ,
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hawk_sio_cmd_t cmd ,
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hawk_sio_arg_t * arg ,
hawk_ooch_t * data ,
hawk_oow_t count
) ;
/**
* The hawk_rio_cmd_t type defines runtime I / O request types .
*/
enum hawk_rio_cmd_t
{
HAWK_RIO_CMD_OPEN = 0 , /**< open a stream */
HAWK_RIO_CMD_CLOSE = 1 , /**< close a stream */
HAWK_RIO_CMD_READ = 2 , /**< read a stream */
HAWK_RIO_CMD_WRITE = 3 , /**< write to a stream */
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HAWK_RIO_CMD_READ_BYTES = 4 ,
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HAWK_RIO_CMD_WRITE_BYTES = 5 ,
HAWK_RIO_CMD_FLUSH = 6 , /**< flush buffered data to a stream */
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HAWK_RIO_CMD_NEXT = 7 /**< close the current stream and
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open the next stream ( only for console ) */
} ;
typedef enum hawk_rio_cmd_t hawk_rio_cmd_t ;
/**
* The hawk_rio_mode_t type defines the I / O modes used by I / O handlers .
* Each I / O handler should inspect the requested mode and open an I / O
* stream accordingly for subsequent operations .
*/
enum hawk_rio_mode_t
{
HAWK_RIO_PIPE_READ = 0 , /**< open a pipe for read */
HAWK_RIO_PIPE_WRITE = 1 , /**< open a pipe for write */
HAWK_RIO_PIPE_RW = 2 , /**< open a pipe for read and write */
HAWK_RIO_FILE_READ = 0 , /**< open a file for read */
HAWK_RIO_FILE_WRITE = 1 , /**< open a file for write */
HAWK_RIO_FILE_APPEND = 2 , /**< open a file for append */
HAWK_RIO_CONSOLE_READ = 0 , /**< open a console for read */
HAWK_RIO_CONSOLE_WRITE = 1 /**< open a console for write */
} ;
typedef enum hawk_rio_mode_t hawk_rio_mode_t ;
/*
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* The hawk_rio_rwcmode_t type defines I / O closing modes , especially for
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* a two - way pipe .
*/
enum hawk_rio_rwcmode_t
{
HAWK_RIO_CMD_CLOSE_FULL = 0 , /**< close both read and write end */
HAWK_RIO_CMD_CLOSE_READ = 1 , /**< close the read end */
HAWK_RIO_CMD_CLOSE_WRITE = 2 /**< close the write end */
} ;
typedef enum hawk_rio_rwcmode_t hawk_rio_rwcmode_t ;
/**
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* The hawk_rio_arg_t defines the data structure passed to a runtime
* I / O handler . An I / O handler should inspect the \ a mode field and the
* \ a name field and store an open handle to the \ a handle field when
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* # HAWK_RIO_CMD_OPEN is requested . For other request type , it can refer
* to the \ a handle field set previously .
*/
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struct hawk_rio_arg_t
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{
/* read-only. a user handler shouldn't change any of these fields */
hawk_rio_mode_t mode ; /**< opening mode */
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hawk_ooch_t * name ; /**< name of I/O object */
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hawk_rio_rwcmode_t rwcmode ; /**< closing mode for rwpipe */
/* read-write. a user handler can do whatever it likes to do with these. */
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void * handle ; /**< I/O handle set by a handler */
int uflags ; /**< user-flags set by a handler */
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/*-- from here down, internal use only --*/
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int type ;
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int rwcstate ; /* closing state for rwpipe */
struct
{
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struct
{
hawk_ooch_t buf [ 2048 ] ;
hawk_bch_t bbuf [ 2048 ] ;
} u ;
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hawk_oow_t pos ;
hawk_oow_t len ;
int eof ;
int eos ;
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int mbs ;
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} in ;
struct
{
int eof ;
int eos ;
} out ;
struct hawk_rio_arg_t * next ;
} ;
typedef struct hawk_rio_arg_t hawk_rio_arg_t ;
/**
* The hawk_rio_impl_t type defines a runtime I / O handler .
*/
typedef hawk_ooi_t ( * hawk_rio_impl_t ) (
hawk_rtx_t * rtx ,
hawk_rio_cmd_t cmd ,
hawk_rio_arg_t * arg ,
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void * data ,
hawk_oow_t count
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) ;
/**
* The hawk_prm_t type defines primitive functions required to perform
* a set of primitive operations .
*/
struct hawk_prm_t
{
struct
{
hawk_math2_t pow ; /**< floating-point power function */
hawk_math2_t mod ; /**< floating-point remainder function */
} math ;
hawk_mod_open_t modopen ;
hawk_mod_close_t modclose ;
hawk_mod_getsym_t modgetsym ;
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hawk_log_write_t logwrite ;
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#if 0
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struct
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{
/* TODO: accept regular expression handling functions */
hawk_buildrex_t build ;
hawk_matchrex_t match ;
hawk_freerex_t free ;
hawk_isemptyrex_t isempty ;
} rex ;
# endif
} ;
typedef struct hawk_prm_t hawk_prm_t ;
/* ------------------------------------------------------------------------ */
/**
* The hawk_sio_cbs_t type defines a script stream handler set .
* The hawk_parse ( ) function calls the input and output handler to parse
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* a script and optionally deparse it . Typical input and output handlers
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* are shown below :
*
* \ code
* hawk_ooi_t in (
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* hawk_t * hawk , hawk_sio_cmd_t cmd ,
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* hawk_sio_arg_t * arg ,
* hawk_ooch_t * buf , hawk_oow_t size )
* {
* if ( cmd = = HAWK_SIO_CMD_OPEN ) open input stream of arg - > name ;
* else if ( cmd = = HAWK_SIO_CMD_CLOSE ) close input stream ;
* else read input stream and fill buf up to size characters ;
* }
*
* hawk_ooi_t out (
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* hawk_t * hawk , hawk_sio_cmd_t cmd ,
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* hawk_sio_arg_t * arg ,
* hawk_ooch_t * data , hawk_oow_t size )
* {
* if ( cmd = = HAWK_SIO_CMD_OPEN ) open_output_stream of arg - > name ;
* else if ( cmd = = HAWK_SIO_CMD_CLOSE ) close_output_stream ;
* else write data of size characters to output stream ;
* }
* \ endcode
*
* For # HAWK_SIO_CMD_OPEN , a handler must return :
* - - 1 if it failed to open a stream .
* - 0 if it has opened a stream but has reached the end .
* - 1 if it has successfully opened a stream .
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*
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* For # HAWK_SIO_CMD_CLOSE , a handler must return :
* - - 1 if it failed to close a stream .
* - 0 if it has closed a stream .
*
* For # HAWK_SIO_CMD_READ and # HAWK_SIO_CMD_WRITE , a handler must return :
* - - 1 if there was an error occurred during operation .
* - 0 if it has reached the end .
* - the number of characters read or written on success .
*/
struct hawk_sio_cbs_t
{
hawk_sio_impl_t in ; /**< input script stream handler */
hawk_sio_impl_t out ; /**< output script stream handler */
} ;
typedef struct hawk_sio_cbs_t hawk_sio_cbs_t ;
/* ------------------------------------------------------------------------ */
/**
* The hawk_rio_t type defines a runtime I / O handler set .
* \ sa hawk_rtx_t
*/
struct hawk_rio_cbs_t
{
hawk_rio_impl_t pipe ; /**< pipe handler */
hawk_rio_impl_t file ; /**< file handler */
hawk_rio_impl_t console ; /**< console handler */
} ;
typedef struct hawk_rio_cbs_t hawk_rio_cbs_t ;
/* ------------------------------------------------------------------------ */
typedef struct hawk_fnc_t hawk_fnc_t ;
typedef struct hawk_fnc_info_t hawk_fnc_info_t ;
/**
* The hawk_fnc_impl_t type defines a intrinsic function handler .
*/
typedef int ( * hawk_fnc_impl_t ) (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_fnc_info_t * fi /**< function information */
) ;
/**
* The hawk_fnc_marg_t type defines a structure to describe arguments
* to an implicit function .
*/
struct hawk_fnc_marg_t
{
/** minimum numbers of argument for a function */
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hawk_oow_t min ;
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/** maximum numbers of argument for a function */
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hawk_oow_t max ;
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/**
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* if min is greater than max , spec points to an external module
* name where the function is found . otherwise , spec can be # HAWK_NULL
* to indicate all arguments are passed by value or point to a
* argument specification string composed of ' max ' characters .
* Each character can be one of :
* - v : value
* - r : reference
* - x : regular expression
*/
const hawk_bch_t * spec ;
} ;
typedef struct hawk_fnc_marg_t hawk_fnc_marg_t ;
/**
* The hawk_fnc_warg_t type defines a structure to describe arguments
* to an implicit function .
*/
struct hawk_fnc_warg_t
{
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hawk_oow_t min ;
hawk_oow_t max ;
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const hawk_uch_t * spec ;
} ;
typedef struct hawk_fnc_warg_t hawk_fnc_warg_t ;
/**
* The hawk_fnc_mspec_t type defines a structure to hold the specification
* of an intrinsic function or a module function .
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*/
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struct hawk_fnc_mspec_t
{
/** argument descriptor */
hawk_fnc_marg_t arg ;
/** pointer to the function implementing this function */
hawk_fnc_impl_t impl ;
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/**
* when this field is set to a non - zero value bitwise - ORed of
* # hawk_trait_t enumerators , the function is available if
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* this field bitwise - ANDed with the global trait option produces
* this field itself .
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*
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* this field doesn ' t take effect for a module function .
*/
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int trait ;
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} ;
typedef struct hawk_fnc_mspec_t hawk_fnc_mspec_t ;
/**
* The hawk_fnc_wspec_t type defines a structure to hold the specification
* of an intrinsic function or a module function .
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*/
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struct hawk_fnc_wspec_t
{
/** argument descriptor */
hawk_fnc_warg_t arg ;
/** pointer to the function implementing this function */
hawk_fnc_impl_t impl ;
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/**
* when this field is set to a non - zero value bitwise - ORed of
* # hawk_trait_t enumerators , the function is available if
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* this field bitwise - ANDed with the global trait option produces
* this field itself .
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*
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* this field doesn ' t take effect for a module function .
*/
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int trait ;
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} ;
typedef struct hawk_fnc_wspec_t hawk_fnc_wspec_t ;
# if defined(HAWK_OOCH_IS_BCH)
typedef hawk_fnc_marg_t hawk_fnc_arg_t ;
typedef hawk_fnc_mspec_t hawk_fnc_spec_t ;
# else
typedef hawk_fnc_warg_t hawk_fnc_arg_t ;
typedef hawk_fnc_wspec_t hawk_fnc_spec_t ;
# endif
/* ------------------------------------------------------------------------ */
typedef struct hawk_mod_t hawk_mod_t ;
typedef struct hawk_mod_sym_t hawk_mod_sym_t ;
struct hawk_fnc_info_t
{
hawk_oocs_t name ;
/** #HAWK_NULL if the function is not registered from module */
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hawk_mod_t * mod ;
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} ;
typedef int ( * hawk_mod_load_t ) (
hawk_mod_t * mod ,
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hawk_t * hawk
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) ;
typedef int ( * hawk_mod_query_t ) (
hawk_mod_t * mod ,
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hawk_t * hawk ,
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const hawk_ooch_t * name ,
hawk_mod_sym_t * sym
) ;
typedef void ( * hawk_mod_unload_t ) (
hawk_mod_t * mod ,
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hawk_t * hawk
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) ;
typedef int ( * hawk_mod_init_t ) (
hawk_mod_t * mod ,
hawk_rtx_t * rtx
) ;
typedef void ( * hawk_mod_fini_t ) (
hawk_mod_t * mod ,
hawk_rtx_t * rtx
) ;
struct hawk_mod_t
{
hawk_mod_query_t query ;
hawk_mod_unload_t unload ; /* unload the module */
hawk_mod_init_t init ; /* per-rtx initialization */
hawk_mod_fini_t fini ; /* per-rtx finalization */
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void * ctx ;
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} ;
enum hawk_mod_sym_type_t
{
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HAWK_MOD_FNC = 0 ,
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HAWK_MOD_INT , /* constant */
HAWK_MOD_FLT /* constant */
/*HAWK_MOD_STR,
HAWK_MOD_VAR ,
*/
} ;
typedef enum hawk_mod_sym_type_t hawk_mod_sym_type_t ;
typedef hawk_fnc_spec_t hawk_mod_sym_fnc_t ;
typedef struct hawk_mod_sym_int_t hawk_mod_sym_int_t ;
typedef struct hawk_mod_sym_flt_t hawk_mod_sym_flt_t ;
struct hawk_mod_sym_int_t
{
hawk_int_t val ;
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int trait ;
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} ;
struct hawk_mod_sym_flt_t
{
hawk_flt_t val ;
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int trait ;
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} ;
struct hawk_mod_sym_t
{
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hawk_mod_sym_type_t type ;
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const hawk_ooch_t * name ;
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union
{
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hawk_mod_sym_fnc_t fnc_ ;
hawk_mod_sym_int_t int_ ;
hawk_mod_sym_flt_t flt_ ;
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} u ;
} ;
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/* ------------------------------------------------------------------------ */
typedef struct hawk_mod_fnc_tab_t hawk_mod_fnc_tab_t ;
struct hawk_mod_fnc_tab_t
{
const hawk_ooch_t * name ;
hawk_mod_sym_fnc_t info ;
} ;
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typedef struct hawk_mod_int_tab_t hawk_mod_int_tab_t ;
struct hawk_mod_int_tab_t
{
const hawk_ooch_t * name ;
hawk_mod_sym_int_t info ;
} ;
typedef struct hawk_mod_flt_tab_t hawk_mod_flt_tab_t ;
struct hawk_mod_flt_tab_t
{
const hawk_ooch_t * name ;
hawk_mod_sym_flt_t info ;
} ;
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/* ------------------------------------------------------------------------ */
/**
* The hawk_ecb_close_t type defines the callback function
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* called when an hawk object is closed . The hawk_close ( ) function
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* calls this callback function after having called hawk_clear ( )
* but before actual closing .
*/
typedef void ( * hawk_ecb_close_t ) (
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hawk_t * hawk ,
void * ctx
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) ;
/**
* The hawk_ecb_clear_t type defines the callback function
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* called when an hawk object is cleared . The hawk_clear ( ) function
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* calls this calllback function before it performs actual clearing .
*/
typedef void ( * hawk_ecb_clear_t ) (
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hawk_t * hawk ,
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void * ctx
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) ;
/**
* The hawk_ecb_t type defines an event callback set .
* You can register a callback function set with
* hawk_pushecb ( ) . The callback functions in the registered
* set are called in the reverse order of registration .
*/
typedef struct hawk_ecb_t hawk_ecb_t ;
struct hawk_ecb_t
{
/**
* called by hawk_close ( ) .
*/
hawk_ecb_close_t close ;
/**
* called by hawk_clear ( ) .
*/
hawk_ecb_clear_t clear ;
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void * ctx ;
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/* internal use only. don't touch this field */
hawk_ecb_t * next ;
} ;
/* ------------------------------------------------------------------------ */
/**
* The hawk_rtx_ecb_close_t type defines the callback function
* called when the runtime context is closed .
*/
typedef void ( * hawk_rtx_ecb_close_t ) (
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hawk_rtx_t * rtx , /**< runtime context */
void * ctx
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) ;
/**
* The hawk_rtx_ecb_stmt_t type defines the callback function for each
* statement .
*/
typedef void ( * hawk_rtx_ecb_stmt_t ) (
hawk_rtx_t * rtx , /**< runtime context */
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hawk_nde_t * nde , /**< node */
void * ctx
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) ;
/**
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* The hawk_rtx_ecb_gblset_t type defines the callback function
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* executed when a global variable is set with a value . It is not
* called when a global variable is changed implicitly . For example ,
* it is not called when FNR is updated for each record read .
*/
typedef void ( * hawk_rtx_ecb_gblset_t ) (
hawk_rtx_t * rtx , /**< runtime context */
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hawk_oow_t idx , /**< global variable index */
hawk_val_t * val , /**< value */
void * ctx
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) ;
/**
* The hawk_rtx_ecb_t type defines an event callback set for a
* runtime context . You can register a callback function set with
* hawk_rtx_pushecb ( ) . The callback functions in the registered
* set are called in the reverse order of registration .
*/
typedef struct hawk_rtx_ecb_t hawk_rtx_ecb_t ;
struct hawk_rtx_ecb_t
{
/**
* called by hawk_rtx_close ( ) .
*/
hawk_rtx_ecb_close_t close ;
/**
* called by hawk_rtx_loop ( ) and hawk_rtx_call ( ) for
* each statement executed .
*/
hawk_rtx_ecb_stmt_t stmt ;
/**
* called when a global variable is set with a value .
*/
hawk_rtx_ecb_gblset_t gblset ;
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void * ctx ;
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/* internal use only. don't touch this field */
hawk_rtx_ecb_t * next ;
} ;
/* ------------------------------------------------------------------------ */
/**
* The hawk_opt_t type defines various option types .
*/
enum hawk_opt_t
{
/** trait option. 0 or bitwise-ORed of ::hawk_trait_t values */
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HAWK_OPT_TRAIT ,
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HAWK_OPT_MODLIBDIRS ,
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HAWK_OPT_MODPREFIX ,
HAWK_OPT_MODPOSTFIX ,
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HAWK_OPT_INCLUDEDIRS ,
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HAWK_OPT_DEPTH_INCLUDE ,
HAWK_OPT_DEPTH_BLOCK_PARSE ,
HAWK_OPT_DEPTH_BLOCK_RUN ,
HAWK_OPT_DEPTH_EXPR_PARSE ,
HAWK_OPT_DEPTH_EXPR_RUN ,
HAWK_OPT_DEPTH_REX_BUILD ,
HAWK_OPT_DEPTH_REX_MATCH ,
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HAWK_OPT_RTX_STACK_LIMIT ,
HAWK_OPT_LOG_MASK ,
HAWK_OPT_LOG_MAXCAPA
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} ;
typedef enum hawk_opt_t hawk_opt_t ;
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# define HAWK_LOG_CAPA_ALIGN (512)
# define HAWK_DFL_LOG_MAXCAPA (HAWK_LOG_CAPA_ALIGN * 16)
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/* ------------------------------------------------------------------------ */
/**
* The hawk_trait_t type defines various options to change the behavior
* of # hawk_t .
*/
enum hawk_trait_t
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{
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/** allows undeclared variables */
HAWK_IMPLICIT = ( 1 < < 0 ) ,
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/** allows multiline string literals or regular expression literals */
HAWK_MULTILINESTR = ( 1 < < 1 ) ,
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/** enables nextofile and NEXTOFILE */
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HAWK_NEXTOFILE = ( 1 < < 2 ) ,
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/** supports \b getline, \b print, \b printf, \b close, \b fflush,
* piping , and file rediction */
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HAWK_RIO = ( 1 < < 3 ) ,
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/** enables the two-way pipe if #HAWK_RIO is on */
HAWK_RWPIPE = ( 1 < < 4 ) ,
/** a new line can terminate a statement */
HAWK_NEWLINE = ( 1 < < 5 ) ,
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/**
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* removes leading and trailing blank fields when splitting a record if FS
* is a regular expression and the match is all spaces .
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*
* \ code
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* BEGIN { FS = " [[:space:]]+ " ; }
* {
* print " NF= " NF ;
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* for ( i = 0 ; i < NF ; i + + ) print i " [ " $ ( i + 1 ) " ] " ;
* }
* \ endcode
* " a b c " is split to [ a ] , [ b ] , [ c ] if # HAWK_STRIPRECSPC is on .
* Otherwise , it is split to [ ] , [ a ] , [ b ] , [ c ] , [ ] .
*
* \ code
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* BEGIN {
* n = split ( " oh my noodle " , x , / [ o ] + / ) ;
* for ( i = 1 ; i < = n ; i + + ) print " [ " x [ i ] " ] " ;
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* }
* \ endcode
* This example splits the string to [ ] , [ h ] , [ my ] , [ n ] , [ dle ]
* if # HAWK_STRIPRECSPC is on . Otherwise , it results in
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* [ ] , [ h ] , [ my ] , [ n ] , [ dle ] , [ ] . Note that the first empty field is not
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* removed as the field separator is not all spaces . ( space + ' o ' ) .
*/
HAWK_STRIPRECSPC = ( 1 < < 6 ) ,
/** strips off leading spaces when converting a string to a number. */
HAWK_STRIPSTRSPC = ( 1 < < 7 ) ,
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/** enable implicit concatenation.
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* if this is off , you need % % for concatenation . */
HAWK_BLANKCONCAT = ( 1 < < 8 ) ,
/** CR + LF by default */
HAWK_CRLF = ( 1 < < 10 ) ,
/** treats a map value more flexibly. a function can return
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* a map . you can override a map with a scalar value without
* ' delete ' or ' \ @ reset ' .
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*/
HAWK_FLEXMAP = ( 1 < < 11 ) ,
/** allows \b BEGIN, \b END, pattern-action blocks */
HAWK_PABLOCK = ( 1 < < 12 ) ,
/** allows {n,m} in a regular expression. */
HAWK_REXBOUND = ( 1 < < 13 ) ,
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/**
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* performs numeric comparison when a string convertable
* to a number is compared with a number or vice versa .
*
* For an expression ( 9 > " 10.9 " ) ,
* - 9 is greater if # HAWK_NCMPONSTR is off ;
* - " 10.9 " is greater if # HAWK_NCMPONSTR is on
*/
HAWK_NCMPONSTR = ( 1 < < 14 ) ,
/**
* enables the strict naming rule .
* - a parameter name can not be the same as the owning function name .
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* - a local variable name can not be the same as the owning
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* function name .
*/
HAWK_STRICTNAMING = ( 1 < < 15 ) ,
/**
* makes AWK more fault - tolerant .
* - prevents termination due to print and printf failure .
* - achieves this by handling print and printf as if
* they are functions like getline .
* - allows an expression group in a normal context
* without the ' in ' operator . the evaluation result
* of the last expression is returned as that of
* the expression group .
* - e . g . ) a = ( 1 , 3 * 3 , 4 , 5 + 1 ) ; # a is assigned 6.
*/
HAWK_TOLERANT = ( 1 < < 17 ) ,
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/*
* detect a numeric string and convert to a numeric type
* automatically
*/
HAWK_NUMSTRDETECT = ( 1 < < 18 ) ,
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/**
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* makes # hawk_t to behave compatibly with classical AWK
* implementations
*/
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HAWK_CLASSIC =
HAWK_IMPLICIT | HAWK_RIO |
HAWK_NEWLINE | HAWK_BLANKCONCAT | HAWK_PABLOCK |
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HAWK_STRIPSTRSPC | HAWK_STRICTNAMING | HAWK_NUMSTRDETECT ,
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HAWK_MODERN =
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HAWK_CLASSIC | HAWK_FLEXMAP | HAWK_REXBOUND |
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HAWK_RWPIPE | HAWK_TOLERANT | HAWK_NEXTOFILE | HAWK_NUMSTRDETECT /*| HAWK_NCMPONSTR*/
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} ;
typedef enum hawk_trait_t hawk_trait_t ;
/* ------------------------------------------------------------------------ */
/**
* The hawk_gbl_id_t type defines intrinsic globals variable IDs .
*/
enum hawk_gbl_id_t
{
/* this table should match gtab in parse.c.
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*
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* in addition , hawk_rtx_setgbl also counts
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* on the order of these values .
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*
* note that set_global ( ) in run . c contains code
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* preventing these global variables from being assigned
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* with a map value . if you happen to add one that can
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* be a map , don ' t forget to change code in set_global ( ) .
* but is this check really necessary ? ? ?
*/
HAWK_GBL_CONVFMT ,
HAWK_GBL_FILENAME ,
HAWK_GBL_FNR ,
HAWK_GBL_FS ,
HAWK_GBL_IGNORECASE ,
HAWK_GBL_NF ,
HAWK_GBL_NR ,
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HAWK_GBL_NUMSTRDETECT ,
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HAWK_GBL_OFILENAME ,
HAWK_GBL_OFMT ,
HAWK_GBL_OFS ,
HAWK_GBL_ORS ,
HAWK_GBL_RLENGTH ,
HAWK_GBL_RS ,
HAWK_GBL_RSTART ,
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HAWK_GBL_SCRIPTNAME ,
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HAWK_GBL_STRIPRECSPC ,
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HAWK_GBL_STRIPSTRSPC ,
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HAWK_GBL_SUBSEP ,
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/* these are not not the actual IDs and are used internally only
* Make sure you update these values properly if you add more
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* ID definitions , however */
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HAWK_MIN_GBL_ID = HAWK_GBL_CONVFMT ,
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HAWK_MAX_GBL_ID = HAWK_GBL_SUBSEP
} ;
typedef enum hawk_gbl_id_t hawk_gbl_id_t ;
/**
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* The hawk_val_type_t type defines types of AWK values . Each value
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* allocated is tagged with a value type in the \ a type field .
* \ sa hawk_val_t HAWK_VAL_HDR
*/
enum hawk_val_type_t
{
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/* - the enumerators between HAWK_VAL_NIL and HAWK_VAL_ARR inclusive
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* must be synchronized with an internal table of the __cmp_val
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* function in run . c .
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* - all enumerators must be in sync with __val_type_name in val . c
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* - all enumerators must be in sync with VAL_XXX defintion in mod - hawk . c */
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HAWK_VAL_NIL = 0 , /**< nil */
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HAWK_VAL_CHAR = 1 , /**< character */
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HAWK_VAL_BCHR = 2 , /**< byte character */
HAWK_VAL_INT = 3 , /**< integer */
HAWK_VAL_FLT = 4 , /**< floating-pointer number */
HAWK_VAL_STR = 5 , /**< string */
HAWK_VAL_MBS = 6 , /**< byte array */
HAWK_VAL_FUN = 7 , /**< function pointer */
HAWK_VAL_MAP = 8 , /**< map */
HAWK_VAL_ARR = 9 , /**< array */
HAWK_VAL_REX = 10 , /**< regular expression */
HAWK_VAL_REF = 11 /**< reference to other types */
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} ;
typedef enum hawk_val_type_t hawk_val_type_t ;
/**
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* The values defined are used to set the type field of the
* # hawk_rtx_valtostr_out_t structure . The field should be one of the
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* following values :
*
* - # HAWK_RTX_VALTOSTR_CPL
* - # HAWK_RTX_VALTOSTR_CPLCPY
* - # HAWK_RTX_VALTOSTR_CPLDUP
* - # HAWK_RTX_VALTOSTR_STRP
* - # HAWK_RTX_VALTOSTR_STRPCAT
*
* and it can optionally be ORed with # HAWK_RTX_VALTOSTR_PRINT .
*/
enum hawk_rtx_valtostr_type_t
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{
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/** use u.cpl of #hawk_rtx_valtostr_out_t */
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HAWK_RTX_VALTOSTR_CPL = 0x00 ,
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/** use u.cplcpy of #hawk_rtx_valtostr_out_t */
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HAWK_RTX_VALTOSTR_CPLCPY = 0x01 ,
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/** use u.cpldup of #hawk_rtx_valtostr_out_t */
HAWK_RTX_VALTOSTR_CPLDUP = 0x02 ,
/** use u.strp of #hawk_rtx_valtostr_out_t */
HAWK_RTX_VALTOSTR_STRP = 0x03 ,
/** use u.strpcat of #hawk_rtx_valtostr_out_t */
HAWK_RTX_VALTOSTR_STRPCAT = 0x04 ,
/** convert for print */
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HAWK_RTX_VALTOSTR_PRINT = 0x10
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} ;
/**
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* The hawk_rtx_valtostr ( ) function converts a value to a string as
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* indicated in a parameter of the hawk_rtx_valtostr_out_t type .
*/
struct hawk_rtx_valtostr_out_t
{
int type ; /**< enum #hawk_rtx_valtostr_type_t */
union
{
hawk_oocs_t cpl ;
hawk_oocs_t cplcpy ;
hawk_oocs_t cpldup ; /* need to free cpldup.ptr */
hawk_ooecs_t * strp ;
hawk_ooecs_t * strpcat ;
} u ;
} ;
typedef struct hawk_rtx_valtostr_out_t hawk_rtx_valtostr_out_t ;
/* record filter using NR */
struct hawk_nrflt_t
{
hawk_int_t limit ;
hawk_int_t size ;
hawk_int_t rank ;
} ;
typedef struct hawk_nrflt_t hawk_nrflt_t ;
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/* sbuf ids */
enum hawk_sbuf_id_t
{
HAWK_SBUF_ID_TMP_1 = 0 ,
HAWK_SBUF_ID_TMP_2 = 1 ,
HAWK_SBUF_ID_TMP_3 = 2 ,
/* more? */
HAWK_SBUF_COUNT
} ;
typedef enum hawk_sbuf_id_t hawk_sbuf_id_t ;
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# if defined(__cplusplus)
extern " C " {
# endif
/**
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* The hawk_open ( ) function creates a new # hawk_t object . The object
* created can be passed to other hawk_xxx ( ) functions and is valid until
* it is destroyed with the hawk_close ( ) function . The function saves the
* memory manager pointer while it copies the contents of the primitive
* function structures . Therefore , you should keep the memory manager valid
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* during the whole life cycle of an hawk_t object .
*
* \ code
* hawk_t * dummy ( )
* {
* hawk_mmgr_t mmgr ;
* hawk_prm_t prm ;
* return hawk_open (
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* & mmgr , // NOT OK because the contents of mmgr is
* // invalidated when dummy() returns.
* 0 ,
* & prm , // OK
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* HAWK_NULL
* ) ;
* }
* \ endcode
*
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* Upon failure , it stores the error number to a variable pointed to
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* by \ a errnum . if \ a errnum is # HAWK_NULL , no error number is stored .
*
* \ return a pointer to a hawk_t object on success , # HAWK_NULL on failure .
*/
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HAWK_EXPORT hawk_t * hawk_open (
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hawk_mmgr_t * mmgr , /**< memory manager */
hawk_oow_t xtnsize , /**< extension size in bytes */
hawk_cmgr_t * cmgr , /**< character conversion manager */
const hawk_prm_t * prm , /**< pointer to a primitive function structure */
hawk_errnum_t * errnum /**< pointer to an error number varaible */
) ;
/**
* The hawk_close ( ) function destroys a hawk_t object .
*/
HAWK_EXPORT void hawk_close (
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hawk_t * hawk /**< hawk */
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) ;
# if defined(HAWK_HAVE_INLINE)
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static HAWK_INLINE void * hawk_getxtn ( hawk_t * hawk ) { return ( void * ) ( ( hawk_uint8_t * ) hawk + ( ( hawk_alt_t * ) hawk ) - > _instsize ) ; }
static HAWK_INLINE hawk_gem_t * hawk_getgem ( hawk_t * hawk ) { return & ( ( hawk_alt_t * ) hawk ) - > _gem ; }
static HAWK_INLINE hawk_mmgr_t * hawk_getmmgr ( hawk_t * hawk ) { return ( ( hawk_alt_t * ) hawk ) - > _gem . mmgr ; }
static HAWK_INLINE hawk_cmgr_t * hawk_getcmgr ( hawk_t * hawk ) { return ( ( hawk_alt_t * ) hawk ) - > _gem . cmgr ; }
static HAWK_INLINE void hawk_setcmgr ( hawk_t * hawk , hawk_cmgr_t * cmgr ) { ( ( hawk_alt_t * ) hawk ) - > _gem . cmgr = cmgr ; }
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# else
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# define hawk_getxtn(hawk) ((void*)((hawk_uint8_t*)hawk + ((hawk_alt_t*)hawk)->_instsize))
# define hawk_getgem(hawk) (&((hawk_alt_t*)(hawk))->_gem)
# define hawk_getmmgr(hawk) (((hawk_alt_t*)(hawk))->_gem.mmgr)
# define hawk_getcmgr(hawk) (((hawk_alt_t*)(hawk))->_gem.cmgr)
# define hawk_setcmgr(hawk,_cmgr) (((hawk_alt_t*)(hawk))->_gem.cmgr = (_cmgr))
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# endif /* HAWK_HAVE_INLINE */
/**
* The hawk_getprm ( ) function retrieves primitive functions
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* associated . Actual function pointers are copied into a
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* structure specified by \ a prm .
*/
HAWK_EXPORT void hawk_getprm (
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hawk_t * hawk ,
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hawk_prm_t * prm
) ;
/**
* The hawk_setprm ( ) function changes existing primitive
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* functions .
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*/
HAWK_EXPORT void hawk_setprm (
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hawk_t * hawk ,
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const hawk_prm_t * prm
) ;
/**
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* The hawk_clear ( ) clears the internal state of \ a hawk . If you want to
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* reuse a hawk_t instance that finished being used , you may call
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* hawk_clear ( ) instead of destroying and creating a new
* # hawk_t instance using hawk_close ( ) and hawk_open ( ) .
*/
HAWK_EXPORT void hawk_clear (
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hawk_t * hawk
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) ;
/**
* The hawk_geterrstr ( ) gets an error string getter .
*/
HAWK_EXPORT hawk_errstr_t hawk_geterrstr (
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hawk_t * hawk /**< hawk */
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) ;
/**
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* The hawk_geterrnum ( ) function returns the number of the last error
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* occurred .
* \ return error number
*/
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/**
* The hawk_geterrloc ( ) function returns the location where the
* last error has occurred .
*/
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/**
* The hawk_geterrbmsg ( ) function returns the error message describing
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* the last error occurred .
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*
* \ return error message
*/
/**
* The hawk_geterrumsg ( ) function returns the error message describing
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* the last error occurred .
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*
* \ return error message
*/
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/**
* The hawk_geterrinf ( ) function copies error information into memory
* pointed to by \ a errinf from \ a hawk .
*/
# if defined(HAWK_HAVE_INLINE)
static HAWK_INLINE hawk_errnum_t hawk_geterrnum ( hawk_t * hawk ) { return ( ( hawk_alt_t * ) hawk ) - > _gem . errnum ; }
static HAWK_INLINE const hawk_loc_t * hawk_geterrloc ( hawk_t * hawk ) { return hawk_gem_geterrloc ( hawk_getgem ( hawk ) ) ; }
static HAWK_INLINE const hawk_bch_t * hawk_geterrbmsg ( hawk_t * hawk ) { return hawk_gem_geterrbmsg ( hawk_getgem ( hawk ) ) ; }
static HAWK_INLINE const hawk_uch_t * hawk_geterrumsg ( hawk_t * hawk ) { return hawk_gem_geterrumsg ( hawk_getgem ( hawk ) ) ; }
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static HAWK_INLINE void hawk_geterrbinf ( hawk_t * hawk , hawk_errbinf_t * errinf ) { return hawk_gem_geterrbinf ( hawk_getgem ( hawk ) , errinf ) ; }
static HAWK_INLINE void hawk_geterruinf ( hawk_t * hawk , hawk_erruinf_t * errinf ) { return hawk_gem_geterruinf ( hawk_getgem ( hawk ) , errinf ) ; }
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# else
# define hawk_geterrnum(hawk) (((hawk_alt_t*)(hawk))->_gem.errnum)
# define hawk_geterrloc(hawk) (hawk_gem_geterrloc(hawk_getgem(hawk)))
# define hawk_geterrbmsg(hawk) (hawk_gem_geterrbmsg(hawk_getgem(hawk)))
# define hawk_geterrumsg(hawk) (hawk_gem_geterrumsg(hawk_getgem(hawk)))
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# define hawk_geterrbinf(hawk, errinf) (hawk_gem_geterrbinf(hawk_getgem(hawk), errinf))
# define hawk_geterruinf(hawk, errinf) (hawk_gem_geterruinf(hawk_getgem(hawk), errinf))
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# endif
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# if defined(HAWK_OOCH_IS_BCH)
# define hawk_geterrmsg hawk_geterrbmsg
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# define hawk_geterrinf hawk_geterrbinf
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# else
# define hawk_geterrmsg hawk_geterrumsg
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# define hawk_geterrinf hawk_geterruinf
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# endif
/**
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* The hawk_seterrnum ( ) function sets the error information omitting
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* error location . You must pass a non - NULL for \ a errarg if the specified
* error number \ a errnum requires one or more arguments to format an
* error message .
*/
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/**
* The hawk_seterrinf ( ) function sets the error information . This function
* may be useful if you want to set a custom error message rather than letting
* it automatically formatted .
*/
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# if defined(HAWK_HAVE_INLINE)
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static HAWK_INLINE void hawk_seterrnum ( hawk_t * hawk , const hawk_loc_t * errloc , hawk_errnum_t errnum ) { hawk_gem_seterrnum ( hawk_getgem ( hawk ) , errloc , errnum ) ; }
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static HAWK_INLINE void hawk_seterrinf ( hawk_t * hawk , const hawk_errinf_t * errinf ) { hawk_gem_seterrinf ( hawk_getgem ( hawk ) , errinf ) ; }
static HAWK_INLINE void hawk_seterror ( hawk_t * hawk , const hawk_loc_t * errloc , hawk_errnum_t errnum , const hawk_oocs_t * errarg ) { hawk_gem_seterror ( hawk_getgem ( hawk ) , errloc , errnum , errarg ) ; }
static HAWK_INLINE const hawk_ooch_t * hawk_backuperrmsg ( hawk_t * hawk ) { return hawk_gem_backuperrmsg ( hawk_getgem ( hawk ) ) ; }
static HAWK_INLINE void hawk_geterror ( hawk_t * hawk , hawk_errnum_t * errnum , const hawk_ooch_t * * errmsg , hawk_loc_t * errloc ) { return hawk_gem_geterror ( hawk_getgem ( hawk ) , errnum , errmsg , errloc ) ; }
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# else
# define hawk_seterrnum(hawk, errloc, errnum) hawk_gem_seterrnum(hawk_getgem(hawk), errloc, errnum)
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# define hawk_seterrinf(hawk, errinf) hawk_gem_seterrinf(hawk_getgem(hawk), errinf)
# define hawk_seterror(hawk, errloc, errnum, errarg) hawk_gem_seterror(hawk_getgem(hawk), errloc, errnum, errarg)
# define hawk_backuperrmsg(hawk) hawk_gem_backuperrmsg(hawk_getgem(hawk))
# define hawk_geterror(hawk, errnum, errmsg, errloc) (hawk_gem_geterror(hawk_getgem(hawk), errnum, errmsg, errloc))
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# endif
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HAWK_EXPORT void hawk_seterrbfmt (
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hawk_t * hawk ,
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const hawk_loc_t * errloc ,
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hawk_errnum_t errnum ,
const hawk_bch_t * errfmt ,
. . .
) ;
HAWK_EXPORT void hawk_seterrufmt (
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hawk_t * hawk ,
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const hawk_loc_t * errloc ,
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hawk_errnum_t errnum ,
const hawk_uch_t * errfmt ,
. . .
) ;
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HAWK_EXPORT void hawk_seterrbvfmt (
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hawk_t * hawk ,
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const hawk_loc_t * errloc ,
hawk_errnum_t errnum ,
const hawk_bch_t * errfmt ,
va_list ap
) ;
HAWK_EXPORT void hawk_seterruvfmt (
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hawk_t * hawk ,
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const hawk_loc_t * errloc ,
hawk_errnum_t errnum ,
const hawk_uch_t * errfmt ,
va_list ap
) ;
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# if defined(HAWK_OOCH_IS_UCH)
# define hawk_seterrfmt hawk_seterrufmt
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# define hawk_seterrvfmt hawk_seterruvfmt
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# else
# define hawk_seterrfmt hawk_seterrbfmt
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# define hawk_seterrvfmt hawk_seterrbvfmt
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# endif
/**
* The hawk_getopt ( ) function gets the value of an option
* specified by \ a id into the buffer pointed to by \ a value .
*
* \ return 0 on success , - 1 on failure
*/
HAWK_EXPORT int hawk_getopt (
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hawk_t * hawk ,
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hawk_opt_t id ,
void * value
) ;
/**
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* The hawk_setopt ( ) function sets the value of an option
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* specified by \ a id to the value pointed to by \ a value .
*
* \ return 0 on success , - 1 on failure
*/
HAWK_EXPORT int hawk_setopt (
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hawk_t * hawk ,
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hawk_opt_t id ,
const void * value
) ;
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HAWK_EXPORT void hawk_killecb (
hawk_t * hawk ,
hawk_ecb_t * ecb
) ;
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/**
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* The hawk_popecb ( ) function pops an hawk event callback set
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* and returns the pointer to it . If no callback set can be popped ,
* it returns # HAWK_NULL .
*/
HAWK_EXPORT hawk_ecb_t * hawk_popecb (
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hawk_t * hawk
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) ;
/**
* The hawk_pushecb ( ) function register a runtime callback set .
*/
HAWK_EXPORT void hawk_pushecb (
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hawk_t * hawk ,
hawk_ecb_t * ecb
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) ;
/**
* The hawk_addgblwithbcstr ( ) function adds an intrinsic global variable .
* \ return the ID of the global variable added on success , - 1 on failure .
*/
HAWK_EXPORT int hawk_addgblwithbcstr (
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hawk_t * hawk , /**< hawk */
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const hawk_bch_t * name /**< variable name */
) ;
/**
* The hawk_addgblwithucstr ( ) function adds an intrinsic global variable .
* \ return the ID of the global variable added on success , - 1 on failure .
*/
HAWK_EXPORT int hawk_addgblwithucstr (
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hawk_t * hawk , /**< hawk */
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const hawk_uch_t * name /**< variable name */
) ;
/**
* The hawk_delgblwithbcstr ( ) function deletes an intrinsic global variable by name .
* \ return 0 on success , - 1 on failure
*/
HAWK_EXPORT int hawk_delgblwithbcstr (
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hawk_t * hawk , /**< hawk */
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const hawk_bch_t * name /**< variable name */
) ;
/**
* The hawk_delgblwithucstr ( ) function deletes an intrinsic global variable by name .
* \ return 0 on success , - 1 on failure
*/
HAWK_EXPORT int hawk_delgblwithucstr (
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hawk_t * hawk , /**< hawk */
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const hawk_uch_t * name /**< variable name */
) ;
/**
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* The hawk_findgblwithbcstr ( ) function returns the numeric ID of a global variable .
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* \ return number > = 0 on success , - 1 on failure
*/
HAWK_EXPORT int hawk_findgblwithbcstr (
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hawk_t * hawk , /**< hawk */
const hawk_bch_t * name , /**< variable name */
int inc_builtins /**< include builtin global variables like FS */
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) ;
/**
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* The hawk_findgblwithucstr ( ) function returns the numeric ID of a global variable .
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* \ return number > = 0 on success , - 1 on failure
*/
HAWK_EXPORT int hawk_findgblwithucstr (
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hawk_t * hawk , /**< hawk */
const hawk_uch_t * name , /**< variable name */
int inc_builtins /**< include builtin globals variables like FS */
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) ;
# if defined(HAWK_OOCH_IS_BCH)
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# define hawk_addgblwithoocstr hawk_addgblwithbcstr
# define hawk_delgblwithoocstr hawk_delgblwithbcstr
# define hawk_findgblwithoocstr hawk_findgblwithbcstr
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# else
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# define hawk_addgblwithoocstr hawk_addgblwithucstr
# define hawk_delgblwithoocstr hawk_delgblwithucstr
# define hawk_findgblwithoocstr hawk_findgblwithucstr
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# endif
/**
* The hawk_addfncwithbcstr ( ) function adds an intrinsic function .
*/
HAWK_EXPORT hawk_fnc_t * hawk_addfncwithbcstr (
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hawk_t * hawk ,
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const hawk_bch_t * name ,
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const hawk_fnc_mspec_t * spec
) ;
/**
* The hawk_addfncwithucstr ( ) function adds an intrinsic function .
*/
HAWK_EXPORT hawk_fnc_t * hawk_addfncwithucstr (
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hawk_t * hawk ,
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const hawk_uch_t * name ,
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const hawk_fnc_wspec_t * spec
) ;
/**
* The hawk_delfncwithbcstr ( ) function deletes an intrinsic function by name .
* \ return 0 on success , - 1 on failure
*/
HAWK_EXPORT int hawk_delfncwithbcstr (
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hawk_t * hawk , /**< hawk */
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const hawk_bch_t * name /**< function name */
) ;
/**
* The hawk_delfncwithucstr ( ) function deletes an intrinsic function by name .
* \ return 0 on success , - 1 on failure
*/
HAWK_EXPORT int hawk_delfncwithucstr (
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hawk_t * hawk , /**< hawk */
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const hawk_uch_t * name /**< function name */
) ;
# if defined(HAWK_OOCH_IS_BCH)
# define hawk_addfnc hawk_addfncwithbcstr
# define hawk_delfnc hawk_delfncwithbcstr
# else
# define hawk_addfnc hawk_addfncwithucstr
# define hawk_delfnc hawk_delfncwithucstr
# endif
/**
* The hawk_clrfnc ( ) function deletes all intrinsic functions
*/
HAWK_EXPORT void hawk_clrfnc (
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hawk_t * hawk /**< hawk */
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) ;
/**
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* The hawk_parse ( ) function parses a source script , and optionally
* deparses it back .
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*
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* It reads a source script by calling \ a sio - > in as shown in the pseudo code
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* below :
*
* \ code
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* n = sio - > in ( hawk , HAWK_SIO_CMD_OPEN ) ;
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* if ( n > = 0 )
* {
* while ( n > 0 )
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* n = sio - > in ( hawk , HAWK_SIO_CMD_READ , buf , buf_size ) ;
* sio - > in ( hawk , HAWK_SIO_CMD_CLOSE ) ;
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* }
* \ endcode
*
* A negative number returned causes hawk_parse ( ) to return failure ;
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* 0 returned indicates the end of a stream ; A positive number returned
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* indicates successful opening of a stream or the length of the text read .
*
* If \ a sio - > out is not # HAWK_NULL , it deparses the internal parse tree
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* composed of a source script and writes back the deparsing result by
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* calling \ a sio - > out as shown below :
*
* \ code
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* n = sio - > out ( hawk , HAWK_SIO_CMD_OPEN ) ;
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* if ( n > = 0 )
* {
* while ( n > 0 )
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* n = sio - > out ( hawk , HAWK_SIO_CMD_WRITE , text , text_size ) ;
* sio - > out ( hawk , HAWK_SIO_CMD_CLOSE ) ;
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* }
* \ endcode
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*
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* Unlike \ a sf - > in , the return value of 0 from \ a sf - > out is treated as
* premature end of a stream ; therefore , it causes hawk_parse ( ) to return
* failure .
*
* \ return 0 on success , - 1 on failure .
*/
HAWK_EXPORT int hawk_parse (
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hawk_t * hawk , /**< hawk */
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hawk_sio_cbs_t * sio /**< source script I/O handler */
) ;
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HAWK_EXPORT int hawk_isvalidident (
hawk_t * hawk ,
const hawk_ooch_t * str
) ;
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/* ----------------------------------------------------------------------- */
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HAWK_EXPORT int hawk_findmodsymfnc_noseterr (
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hawk_t * hawk ,
hawk_mod_fnc_tab_t * fnctab ,
hawk_oow_t count ,
const hawk_ooch_t * name ,
hawk_mod_sym_t * sym
) ;
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HAWK_EXPORT int hawk_findmodsymint_noseterr (
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hawk_t * hawk ,
hawk_mod_int_tab_t * inttab ,
hawk_oow_t count ,
const hawk_ooch_t * name ,
hawk_mod_sym_t * sym
) ;
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HAWK_EXPORT int hawk_findmodsymflt_noseterr (
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hawk_t * hawk ,
hawk_mod_flt_tab_t * flttab ,
hawk_oow_t count ,
const hawk_ooch_t * name ,
hawk_mod_sym_t * sym
) ;
HAWK_EXPORT int hawk_findmodsymfnc (
hawk_t * hawk ,
hawk_mod_fnc_tab_t * fnctab ,
hawk_oow_t count ,
const hawk_ooch_t * name ,
hawk_mod_sym_t * sym
) ;
HAWK_EXPORT int hawk_findmodsymint (
hawk_t * hawk ,
hawk_mod_int_tab_t * inttab ,
hawk_oow_t count ,
const hawk_ooch_t * name ,
hawk_mod_sym_t * sym
) ;
HAWK_EXPORT int hawk_findmodsymflt (
hawk_t * hawk ,
hawk_mod_flt_tab_t * flttab ,
hawk_oow_t count ,
const hawk_ooch_t * name ,
hawk_mod_sym_t * sym
) ;
/* ----------------------------------------------------------------------- */
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# if defined(HAWK_HAVE_INLINE)
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static HAWK_INLINE void * hawk_allocmem ( hawk_t * hawk , hawk_oow_t size ) { return hawk_gem_allocmem ( hawk_getgem ( hawk ) , size ) ; }
static HAWK_INLINE void * hawk_reallocmem ( hawk_t * hawk , void * ptr , hawk_oow_t size ) { return hawk_gem_reallocmem ( hawk_getgem ( hawk ) , ptr , size ) ; }
static HAWK_INLINE void * hawk_callocmem ( hawk_t * hawk , hawk_oow_t size ) { return hawk_gem_callocmem ( hawk_getgem ( hawk ) , size ) ; }
static HAWK_INLINE void hawk_freemem ( hawk_t * hawk , void * ptr ) { hawk_gem_freemem ( hawk_getgem ( hawk ) , ptr ) ; }
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# else
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# define hawk_allocmem(hawk, size) hawk_gem_allocmem(hawk_getgem(hawk), size)
# define hawk_reallocmem(hawk, ptr, size) hawk_gem_reallocmem(hawk_getgem(hawk), ptr, size)
# define hawk_callocmem(hawk, size) hawk_gem_callocmem(hawk_getgem(hawk), size)
# define hawk_freemem(hawk, ptr) hawk_gem_freemem(hawk_getgem(hawk), ptr)
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# endif
/* ----------------------------------------------------------------------- */
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# if defined(HAWK_HAVE_INLINE)
static HAWK_INLINE hawk_uch_t * hawk_dupucstr ( hawk_t * hawk , const hawk_uch_t * ucs , hawk_oow_t * ucslen ) { return hawk_gem_dupucstr ( hawk_getgem ( hawk ) , ucs , ucslen ) ; }
static HAWK_INLINE hawk_bch_t * hawk_dupbcstr ( hawk_t * hawk , const hawk_bch_t * bcs , hawk_oow_t * bcslen ) { return hawk_gem_dupbcstr ( hawk_getgem ( hawk ) , bcs , bcslen ) ; }
static HAWK_INLINE hawk_uch_t * hawk_dupuchars ( hawk_t * hawk , const hawk_uch_t * ucs , hawk_oow_t ucslen ) { return hawk_gem_dupuchars ( hawk_getgem ( hawk ) , ucs , ucslen ) ; }
static HAWK_INLINE hawk_bch_t * hawk_dupbchars ( hawk_t * hawk , const hawk_bch_t * bcs , hawk_oow_t bcslen ) { return hawk_gem_dupbchars ( hawk_getgem ( hawk ) , bcs , bcslen ) ; }
static HAWK_INLINE hawk_uch_t * hawk_dupucs ( hawk_t * hawk , const hawk_ucs_t * ucs ) { return hawk_gem_dupucs ( hawk_getgem ( hawk ) , ucs ) ; }
static HAWK_INLINE hawk_bch_t * hawk_dupbcs ( hawk_t * hawk , const hawk_bcs_t * bcs ) { return hawk_gem_dupbcs ( hawk_getgem ( hawk ) , bcs ) ; }
static HAWK_INLINE hawk_uch_t * hawk_dupucstrarr ( hawk_t * hawk , const hawk_uch_t * strs [ ] , hawk_oow_t * len ) { return hawk_gem_dupucstrarr ( hawk_getgem ( hawk ) , strs , len ) ; }
static HAWK_INLINE hawk_bch_t * hawk_dupbcstrarr ( hawk_t * hawk , const hawk_bch_t * strs [ ] , hawk_oow_t * len ) { return hawk_gem_dupbcstrarr ( hawk_getgem ( hawk ) , strs , len ) ; }
# else
# define hawk_dupucstr(hawk, ucs, ucslen) hawk_gem_dupucstr(hawk_getgem(hawk), ucs, ucslen)
# define hawk_dupbcstr(hawk, bcs, bcslen) hawk_gem_dupbcstr(hawk_getgem(hawk), bcs, bcslen)
# define hawk_dupuchars(hawk, ucs, ucslen) hawk_gem_dupuchars(hawk_getgem(hawk), ucs, ucslen)
# define hawk_dupbchars(hawk, bcs, bcslen) hawk_gem_dupbchars(hawk_getgem(hawk), bcs, bcslen)
# define hawk_dupucs(hawk, ucs) hawk_gem_dupucs(hawk_getgem(hawk), ucs)
# define hawk_dupbcs(hawk, bcs) hawk_gem_dupbcs(hawk_getgem(hawk), bcs)
# define hawk_dupucstrarr(hawk, strs, len) hawk_gem_dupucstrarr(hawk_getgem(hawk), strs, len)
# define hawk_dupbcstrarr(hawk, strs, len) hawk_gem_dupbcstrarr(hawk_getgem(hawk), strs, len)
# endif
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# if defined(HAWK_OOCH_IS_UCH)
# define hawk_dupoocstr hawk_dupucstr
# define hawk_dupoochars hawk_dupuchars
# define hawk_dupoocs hawk_dupucs
# define hawk_dupoocstrarr hawk_dupucstrarr
# else
# define hawk_dupoocstr hawk_dupbcstr
# define hawk_dupoochars hawk_dupbchars
# define hawk_dupoocs hawk_dupbcs
# define hawk_dupoocstrarr hawk_dupbcstrarr
# endif
/* ----------------------------------------------------------------------- */
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# if defined(HAWK_HAVE_INLINE)
static HAWK_INLINE int hawk_convbtouchars ( hawk_t * hawk , const hawk_bch_t * bcs , hawk_oow_t * bcslen , hawk_uch_t * ucs , hawk_oow_t * ucslen , int all ) { return hawk_gem_convbtouchars ( hawk_getgem ( hawk ) , bcs , bcslen , ucs , ucslen , all ) ; }
static HAWK_INLINE int hawk_convutobchars ( hawk_t * hawk , const hawk_uch_t * ucs , hawk_oow_t * ucslen , hawk_bch_t * bcs , hawk_oow_t * bcslen ) { return hawk_gem_convutobchars ( hawk_getgem ( hawk ) , ucs , ucslen , bcs , bcslen ) ; }
static HAWK_INLINE int hawk_convbtoucstr ( hawk_t * hawk , const hawk_bch_t * bcs , hawk_oow_t * bcslen , hawk_uch_t * ucs , hawk_oow_t * ucslen , int all ) { return hawk_gem_convbtoucstr ( hawk_getgem ( hawk ) , bcs , bcslen , ucs , ucslen , all ) ; }
static HAWK_INLINE int hawk_convutobcstr ( hawk_t * hawk , const hawk_uch_t * ucs , hawk_oow_t * ucslen , hawk_bch_t * bcs , hawk_oow_t * bcslen ) { return hawk_gem_convutobcstr ( hawk_getgem ( hawk ) , ucs , ucslen , bcs , bcslen ) ; }
# else
# define hawk_convbtouchars(hawk, bcs, bcslen, ucs, ucslen, all) hawk_gem_convbtouchars(hawk_getgem(hawk), bcs, bcslen, ucs, ucslen, all)
# define hawk_convutobchars(hawk, ucs, ucslen, bcs, bcslen) hawk_gem_convutobchars(hawk_getgem(hawk), ucs, ucslen, bcs, bcslen)
# define hawk_convbtoucstr(hawk, bcs, bcslen, ucs, ucslen, all) hawk_gem_convbtoucstr(hawk_getgem(hawk), bcs, bcslen, ucs, ucslen, all)
# define hawk_convutobcstr(hawk, ucs, ucslen, bcs, bcslen) hawk_gem_convutobcstr(hawk_getgem(hawk), ucs, ucslen, bcs, bcslen)
# endif
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/* ----------------------------------------------------------------------- */
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# if defined(HAWK_HAVE_INLINE)
static HAWK_INLINE hawk_uch_t * hawk_dupbtouchars ( hawk_t * hawk , const hawk_bch_t * bcs , hawk_oow_t _bcslen , hawk_oow_t * _ucslen , int all ) { return hawk_gem_dupbtouchars ( hawk_getgem ( hawk ) , bcs , _bcslen , _ucslen , all ) ; }
static HAWK_INLINE hawk_bch_t * hawk_duputobchars ( hawk_t * hawk , const hawk_uch_t * ucs , hawk_oow_t _ucslen , hawk_oow_t * _bcslen ) { return hawk_gem_duputobchars ( hawk_getgem ( hawk ) , ucs , _ucslen , _bcslen ) ; }
static HAWK_INLINE hawk_uch_t * hawk_dupb2touchars ( hawk_t * hawk , const hawk_bch_t * bcs1 , hawk_oow_t bcslen1 , const hawk_bch_t * bcs2 , hawk_oow_t bcslen2 , hawk_oow_t * ucslen , int all ) { return hawk_gem_dupb2touchars ( hawk_getgem ( hawk ) , bcs1 , bcslen1 , bcs2 , bcslen2 , ucslen , all ) ; }
static HAWK_INLINE hawk_bch_t * hawk_dupu2tobchars ( hawk_t * hawk , const hawk_uch_t * ucs1 , hawk_oow_t ucslen1 , const hawk_uch_t * ucs2 , hawk_oow_t ucslen2 , hawk_oow_t * bcslen ) { return hawk_gem_dupu2tobchars ( hawk_getgem ( hawk ) , ucs1 , ucslen1 , ucs2 , ucslen2 , bcslen ) ; }
static HAWK_INLINE hawk_uch_t * hawk_dupbtoucstr ( hawk_t * hawk , const hawk_bch_t * bcs , hawk_oow_t * _ucslen , int all ) { return hawk_gem_dupbtoucstr ( hawk_getgem ( hawk ) , bcs , _ucslen , all ) ; }
static HAWK_INLINE hawk_bch_t * hawk_duputobcstr ( hawk_t * hawk , const hawk_uch_t * ucs , hawk_oow_t * _bcslen ) { return hawk_gem_duputobcstr ( hawk_getgem ( hawk ) , ucs , _bcslen ) ; }
static HAWK_INLINE hawk_uch_t * hawk_dupbtoucharswithcmgr ( hawk_t * hawk , const hawk_bch_t * bcs , hawk_oow_t _bcslen , hawk_oow_t * _ucslen , hawk_cmgr_t * cmgr , int all ) { return hawk_gem_dupbtoucharswithcmgr ( hawk_getgem ( hawk ) , bcs , _bcslen , _ucslen , cmgr , all ) ; }
static HAWK_INLINE hawk_bch_t * hawk_duputobcharswithcmgr ( hawk_t * hawk , const hawk_uch_t * ucs , hawk_oow_t _ucslen , hawk_oow_t * _bcslen , hawk_cmgr_t * cmgr ) { return hawk_gem_duputobcharswithcmgr ( hawk_getgem ( hawk ) , ucs , _ucslen , _bcslen , cmgr ) ; }
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static HAWK_INLINE hawk_uch_t * hawk_dupbcstrarrtoucstr ( hawk_t * hawk , const hawk_bch_t * bcsarr [ ] , hawk_oow_t * ucslen , int all ) { return hawk_gem_dupbcstrarrtoucstr ( hawk_getgem ( hawk ) , bcsarr , ucslen , all ) ; }
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static HAWK_INLINE hawk_bch_t * hawk_dupucstrarrtobcstr ( hawk_t * hawk , const hawk_uch_t * ucsarr [ ] , hawk_oow_t * bcslen ) { return hawk_gem_dupucstrarrtobcstr ( hawk_getgem ( hawk ) , ucsarr , bcslen ) ; }
# else
# define hawk_dupbtouchars(hawk, bcs, _bcslen, _ucslen, all) hawk_gem_dupbtouchars(hawk_getgem(hawk), bcs, _bcslen, _ucslen, all)
# define hawk_duputobchars(hawk, ucs, _ucslen, _bcslen) hawk_gem_duputobchars(hawk_getgem(hawk), ucs, _ucslen, _bcslen)
# define hawk_dupb2touchars(hawk, bcs1, bcslen1, bcs2, bcslen2, ucslen, all) hawk_gem_dupb2touchars(hawk_getgem(hawk), bcs1, bcslen1, bcs2, bcslen2, ucslen, all)
# define hawk_dupu2tobchars(hawk, ucs1, ucslen1, ucs2, ucslen2, bcslen) hawk_gem_dupu2tobchars(hawk_getgem(hawk), ucs1, ucslen1, ucs2, ucslen2, bcslen)
# define hawk_dupbtoucstr(hawk, bcs, _ucslen, all) hawk_gem_dupbtoucstr(hawk_getgem(hawk), bcs, _ucslen, all)
# define hawk_duputobcstr(hawk, ucs, _bcslen) hawk_gem_duputobcstr(hawk_getgem(hawk), ucs, _bcslen)
# define hawk_dupbtoucharswithcmgr(hawk, bcs, _bcslen, _ucslen, cmgr, all) hawk_gem_dupbtoucharswithcmgr(hawk_getgem(hawk), bcs, _bcslen, _ucslen, cmgr, all)
# define hawk_duputobcharswithcmgr(hawk, ucs, _ucslen, _bcslen, cmgr) hawk_gem_duputobcharswithcmgr(hawk_getgem(hawk), ucs, _ucslen, _bcslen, cmgr)
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# define hawk_dupbcstrarrtoucstr(hawk, bcsarr, ucslen, all) hawk_gem_dupbcstrarrtoucstr(hawk_getgem(hawk), bcsarr, ucslen, all)
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# define hawk_dupucstrarrtobcstr(hawk, ucsarr, bcslen) hawk_gem_dupucstrarrtobcstr(hawk_getgem(hawk), ucsarr, bcslen)
# endif
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/* ----------------------------------------------------------------------- */
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HAWK_EXPORT hawk_oow_t hawk_fmttoucstr_ (
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hawk_t * hawk ,
hawk_uch_t * buf ,
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hawk_oow_t bufsz ,
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const hawk_uch_t * fmt ,
. . .
) ;
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HAWK_EXPORT hawk_oow_t hawk_fmttobcstr_ (
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hawk_t * hawk ,
hawk_bch_t * buf ,
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hawk_oow_t bufsz ,
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const hawk_bch_t * fmt ,
. . .
) ;
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# if defined(HAWK_HAVE_INLINE)
static HAWK_INLINE hawk_oow_t hawk_vfmttoucstr ( hawk_t * hawk , hawk_uch_t * buf , hawk_oow_t bufsz , const hawk_uch_t * fmt , va_list ap ) { return hawk_gem_vfmttoucstr ( hawk_getgem ( hawk ) , buf , bufsz , fmt , ap ) ; }
static HAWK_INLINE hawk_oow_t hawk_fmttoucstr ( hawk_t * hawk , hawk_uch_t * buf , hawk_oow_t bufsz , const hawk_uch_t * fmt , . . . ) { va_list ap ; hawk_oow_t n ; va_start ( ap , fmt ) ; n = hawk_gem_vfmttoucstr ( hawk_getgem ( hawk ) , buf , bufsz , fmt , ap ) ; va_end ( ap ) ; return n ; }
static HAWK_INLINE hawk_oow_t hawk_vfmttobcstr ( hawk_t * hawk , hawk_bch_t * buf , hawk_oow_t bufsz , const hawk_bch_t * fmt , va_list ap ) { return hawk_gem_vfmttobcstr ( hawk_getgem ( hawk ) , buf , bufsz , fmt , ap ) ; }
static HAWK_INLINE hawk_oow_t hawk_fmttobcstr ( hawk_t * hawk , hawk_bch_t * buf , hawk_oow_t bufsz , const hawk_bch_t * fmt , . . . ) { va_list ap ; hawk_oow_t n ; va_start ( ap , fmt ) ; n = hawk_gem_vfmttobcstr ( hawk_getgem ( hawk ) , buf , bufsz , fmt , ap ) ; va_end ( ap ) ; return n ; }
# else
# define hawk_vfmttoucstr(hawk, buf, bufsz, fmt, ap) hawk_gem_vfmttoucstr(hawk_getgem(hawk), buf, bufsz, fmt, ap)
# define hawk_fmttoucstr hawk_fmttoucstr_
# define hawk_vfmttobcstr(hawk, buf, bufsz, fmt, ap) hawk_gem_vfmttobcstr(hawk_getgem(hawk), buf, bufsz, fmt, ap)
# define hawk_fmttobcstr hawk_fmttobcstr_
# endif
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# if defined(HAWK_OOCH_IS_UCH)
# define hawk_vfmttooocstr hawk_vfmttoucstr
# define hawk_fmttooocstr hawk_fmttoucstr
# else
# define hawk_vfmttooocstr hawk_vfmttobcstr
# define hawk_fmttooocstr hawk_fmttobcstr
# endif
/* ----------------------------------------------------------------------- */
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HAWK_EXPORT int hawk_buildrex (
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hawk_t * hawk ,
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const hawk_ooch_t * ptn ,
hawk_oow_t len ,
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hawk_tre_t * * code ,
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hawk_tre_t * * icode
) ;
# if defined(HAWK_HAVE_INLINE)
static HAWK_INLINE void hawk_freerex ( hawk_t * hawk , hawk_tre_t * code , hawk_tre_t * icode ) { hawk_gem_freerex ( hawk_getgem ( hawk ) , code , icode ) ; }
# else
# define hawk_freerex(hawk, code, icode) hawk_gem_freerex(hawk_getgem(hawk), code, icode)
# endif
/* ----------------------------------------------------------------------- */
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HAWK_EXPORT hawk_ooi_t hawk_logufmtv (
hawk_t * hawk ,
hawk_bitmask_t mask ,
const hawk_uch_t * fmt ,
va_list ap
) ;
HAWK_EXPORT hawk_ooi_t hawk_logufmt (
hawk_t * hawk ,
hawk_bitmask_t mask ,
const hawk_uch_t * fmt ,
. . .
) ;
HAWK_EXPORT hawk_ooi_t hawk_logbfmtv (
hawk_t * hawk ,
hawk_bitmask_t mask ,
const hawk_bch_t * fmt ,
va_list ap
) ;
HAWK_EXPORT hawk_ooi_t hawk_logbfmt (
hawk_t * hawk ,
hawk_bitmask_t mask ,
const hawk_bch_t * fmt ,
. . .
) ;
# if defined(HAWK_OOCH_IS_UCH)
# define hawk_logfmtv hawk_logufmtv
# define hawk_logfmt hawk_logufmt
# else
# define hawk_logfmtv hawk_logbfmtv
# define hawk_logfmt hawk_logbfmt
# endif
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/* ----------------------------------------------------------------------- */
HAWK_EXPORT int hawk_copyoocstrtosbuf (
hawk_t * hawk ,
const hawk_ooch_t * str ,
hawk_sbuf_id_t id
) ;
HAWK_EXPORT int hawk_concatoocstrtosbuf (
hawk_t * hawk ,
const hawk_ooch_t * str ,
hawk_sbuf_id_t id
) ;
HAWK_EXPORT int hawk_copyoocharstosbuf (
hawk_t * hawk ,
const hawk_ooch_t * ptr ,
hawk_oow_t len ,
hawk_sbuf_id_t id
) ;
HAWK_EXPORT int hawk_concatoocharstosbuf (
hawk_t * hawk ,
const hawk_ooch_t * ptr ,
hawk_oow_t len ,
hawk_sbuf_id_t id
) ;
HAWK_EXPORT int hawk_concatoochartosbuf (
hawk_t * hawk ,
hawk_ooch_t ch ,
hawk_oow_t count ,
hawk_sbuf_id_t id
) ;
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/* ----------------------------------------------------------------------- */
/**
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* The hawk_rtx_open ( ) creates a runtime context associated with \ a hawk .
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* It also allocates an extra memory block as large as the \ a xtn bytes .
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* You can get the pointer to the beginning of the block with
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* hawk_rtx_getxtn ( ) . The block is destroyed when the runtime context is
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* destroyed .
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*
* \ return new runtime context on success , # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_rtx_t * hawk_rtx_open (
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hawk_t * hawk , /**< hawk */
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hawk_oow_t xtn , /**< size of extension in bytes */
hawk_rio_cbs_t * rio /**< runtime IO handlers */
) ;
/**
* The hawk_rtx_close ( ) function destroys a runtime context .
*/
HAWK_EXPORT void hawk_rtx_close (
hawk_rtx_t * rtx /**< runtime context */
) ;
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# if defined(HAWK_HAVE_INLINE)
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static HAWK_INLINE hawk_t * hawk_rtx_gethawk ( hawk_rtx_t * rtx ) { return ( ( hawk_rtx_alt_t * ) rtx ) - > hawk ; }
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static HAWK_INLINE void * hawk_rtx_getxtn ( hawk_rtx_t * rtx ) { return ( void * ) ( ( hawk_uint8_t * ) rtx + ( ( hawk_rtx_alt_t * ) rtx ) - > _instsize ) ; }
static HAWK_INLINE hawk_gem_t * hawk_rtx_getgem ( hawk_rtx_t * rtx ) { return & ( ( hawk_rtx_alt_t * ) rtx ) - > _gem ; }
static HAWK_INLINE hawk_mmgr_t * hawk_rtx_getmmgr ( hawk_rtx_t * rtx ) { return ( ( hawk_rtx_alt_t * ) rtx ) - > _gem . mmgr ; }
static HAWK_INLINE hawk_cmgr_t * hawk_rtx_getcmgr ( hawk_rtx_t * rtx ) { return ( ( hawk_rtx_alt_t * ) rtx ) - > _gem . cmgr ; }
static HAWK_INLINE void hawk_rtx_setcmgr ( hawk_rtx_t * rtx , hawk_cmgr_t * cmgr ) { ( ( hawk_rtx_alt_t * ) rtx ) - > _gem . cmgr = cmgr ; }
# else
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# define hawk_rtx_gethawk(rtx) (((hawk_rtx_alt_t*)(rtx))->hawk)
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# define hawk_rtx_getxtn(rtx) ((void*)((hawk_uint8_t*)rtx + ((hawk_rtx_alt_t*)rtx)->_instsize))
# define hawk_rtx_getgem(rtx) (&((hawk_rtx_alt_t*)(rtx))->_gem)
# define hawk_rtx_getmmgr(rtx) (((hawk_rtx_alt_t*)(rtx))->_gem.mmgr)
# define hawk_rtx_getcmgr(rtx) (((hawk_rtx_alt_t*)(rtx))->_gem.cmgr)
# define hawk_rtx_setcmgr(rtx,_cmgr) (((hawk_rtx_alt_t*)(rtx))->_gem.cmgr = (_cmgr))
# endif /* HAWK_HAVE_INLINE */
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/**
* The hawk_rtx_loop ( ) function executes the BEGIN block , pattern - action
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* blocks and the END blocks in an AWK program . It returns the global return
* value of which the reference count must be decremented when not necessary .
* Multiple invocations of the function for the lifetime of a runtime context
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* is not desirable .
*
* The example shows typical usage of the function .
* \ code
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* rtx = hawk_rtx_open ( hawk , 0 , rio ) ;
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* if ( rtx )
* {
* retv = hawk_rtx_loop ( rtx ) ;
* if ( retv ) hawk_rtx_refdownval ( rtx , retv ) ;
* hawk_rtx_close ( rtx ) ;
* }
* \ endcode
*
* \ return return value on success , # HAWK_NULL on failure .
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_loop (
hawk_rtx_t * rtx /**< runtime context */
) ;
/**
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* The hawk_rtx_findfunwithbcstr ( ) function finds the function structure by
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* name and returns the pointer to it if one is found . It returns # HAWK_NULL
* if it fails to find a function by the \ a name .
*/
HAWK_EXPORT hawk_fun_t * hawk_rtx_findfunwithbcstr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_bch_t * name /**< function name */
) ;
/**
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* The hawk_rtx_findfunwithucstr ( ) function finds the function structure by
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* name and returns the pointer to it if one is found . It returns # HAWK_NULL
* if it fails to find a function by the \ a name .
*/
HAWK_EXPORT hawk_fun_t * hawk_rtx_findfunwithucstr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_uch_t * name /**< function name */
) ;
# if defined(HAWK_OOCH_IS_BCH)
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# define hawk_rtx_findfunwithoocstr hawk_rtx_findfunwithbcstr
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# else
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# define hawk_rtx_findfunwithoocstr hawk_rtx_findfunwithucstr
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# endif
/**
* The hawk_rtx_callfun ( ) function invokes an AWK function described by
* the structure pointed to by \ a fun .
* \ sa hawk_rtx_call
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_callfun (
hawk_rtx_t * rtx , /**< runtime context */
hawk_fun_t * fun , /**< function */
hawk_val_t * args [ ] , /**< arguments to the function */
hawk_oow_t nargs /**< the number of arguments */
) ;
/**
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* The hawk_rtx_callwithucstr ( ) function invokes an AWK function named \ a name .
* However , it is not able to invoke an intrinsic function such as split ( ) .
* The # HAWK_PABLOCK option can be turned off to make illegal the BEGIN
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* blocks , the pattern - action blocks , and the END blocks .
*
* The example shows typical usage of the function .
* \ code
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* rtx = hawk_rtx_open ( hawk , 0 , rio ) ;
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* if ( rtx )
* {
* v = hawk_rtx_callwithucstr ( rtx , HAWK_UT ( " init " ) , HAWK_NULL , 0 ) ;
* if ( v ) hawk_rtx_refdownval ( rtx , v ) ;
* hawk_rtx_callwithucstr ( rtx , HAWK_UT ( " fini " ) , HAWK_NULL , 0 ) ;
* if ( v ) hawk_rtx_refdownval ( rtx , v ) ;
* hawk_rtx_close ( rtx ) ;
* }
* \ endcode
*
* \ return 0 on success , - 1 on failure
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_callwithucstr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_uch_t * name , /**< function name */
hawk_val_t * args [ ] , /**< arguments to the function */
hawk_oow_t nargs /**< the number of arguments */
) ;
/**
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* The hawk_rtx_callwithbcstr ( ) function invokes an AWK function named \ a name .
* However , it is not able to invoke an intrinsic function such as split ( ) .
* The # HAWK_PABLOCK option can be turned off to make illegal the BEGIN
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* blocks , the pattern - action blocks , and the END blocks .
*
* The example shows typical usage of the function .
* \ code
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* rtx = hawk_rtx_open ( hawk , 0 , rio ) ;
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* if ( rtx )
* {
* v = hawk_rtx_callwithbcstr ( rtx , HAWK_BT ( " init " ) , HAWK_NULL , 0 ) ;
* if ( v ) hawk_rtx_refdownval ( rtx , v ) ;
* hawk_rtx_callwithbcstr ( rtx , HAWK_BT ( " fini " ) , HAWK_NULL , 0 ) ;
* if ( v ) hawk_rtx_refdownval ( rtx , v ) ;
* hawk_rtx_close ( rtx ) ;
* }
* \ endcode
*
* \ return 0 on success , - 1 on failure
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_callwithbcstr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_bch_t * name , /**< function name */
hawk_val_t * args [ ] , /**< arguments to the function */
hawk_oow_t nargs /**< the number of arguments */
) ;
/**
* The hawk_rtx_callwithargarr ( ) function is the same as hawk_rtx_call ( )
* except that you pass pointers to null - terminated strings . It creates values
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* from the null - terminated strings and calls hawk_rtx_call ( ) with the
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* values created .
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_callwithucstrarr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_uch_t * name , /**< function name */
const hawk_uch_t * args [ ] , /**< arguments to the function */
hawk_oow_t nargs /**< the number of arguments */
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_callwithbcstrarr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_bch_t * name , /**< function name */
const hawk_bch_t * args [ ] , /**< arguments to the function */
hawk_oow_t nargs /**< the number of arguments */
) ;
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HAWK_EXPORT hawk_val_t * hawk_rtx_callwithooucstrarr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_ooch_t * name , /**< function name */
const hawk_uch_t * args [ ] , /**< arguments to the function */
hawk_oow_t nargs /**< the number of arguments */
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_callwithoobcstrarr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_ooch_t * name , /**< function name */
const hawk_bch_t * args [ ] , /**< arguments to the function */
hawk_oow_t nargs /**< the number of arguments */
) ;
/**
* The hawk_rtx_execwithucstrarr ( ) function calls the starup function
* if the @ pragma startup directive is found in a top - level source
* code or run hawk_rtx_loop ( ) to enter the standard pattern loop
* otherwise */
HAWK_EXPORT hawk_val_t * hawk_rtx_execwithucstrarr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_uch_t * args [ ] , /**< arguments to the function */
hawk_oow_t nargs /**< the number of arguments */
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_execwithbcstrarr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_bch_t * args [ ] , /**< arguments to the function */
hawk_oow_t nargs /**< the number of arguments */
) ;
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# if defined(HAWK_OOCH_IS_UCH)
# define hawk_rtx_callwithoocstr hawk_rtx_callwithucstr
# define hawk_rtx_callwithoocstrarr hawk_rtx_callwithucstrarr
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# define hawk_rtx_execwithoocstrarr hawk_rtx_execwithucstrarr
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# define hawk_rtx_call hawk_rtx_callwithucstr
# define hawk_rtx_exec hawk_rtx_execwithucstrarr
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# else
# define hawk_rtx_callwithoocstr hawk_rtx_callwithbcstr
# define hawk_rtx_callwithoocstrarr hawk_rtx_callwithbcstrarr
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# define hawk_rtx_execwithoocstrarr hawk_rtx_execwithbcstrarr
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# define hawk_rtx_call hawk_rtx_callwithbcstr
# define hawk_rtx_exec hawk_rtx_execwithbcstrarr
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# endif
/**
* The hawk_haltall ( ) function aborts all active runtime contexts
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* associated with \ a hawk .
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*/
HAWK_EXPORT void hawk_haltall (
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hawk_t * hawk /**< hawk */
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) ;
/**
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* The hawk_rtx_ishalt ( ) function tests if hawk_rtx_halt ( ) has been
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* called .
*/
HAWK_EXPORT int hawk_rtx_ishalt (
hawk_rtx_t * rtx /**< runtime context */
) ;
/**
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* The hawk_rtx_halt ( ) function causes an active runtime context \ a rtx to
* be aborted .
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*/
HAWK_EXPORT void hawk_rtx_halt (
hawk_rtx_t * rtx /**< runtime context */
) ;
/**
* The hawk_rtx_getrio ( ) function copies runtime I / O handlers
* to the memory buffer pointed to by \ a rio .
*/
HAWK_EXPORT void hawk_rtx_getrio (
hawk_rtx_t * rtx ,
hawk_rio_cbs_t * rio
) ;
/**
* The hawk_rtx_getrio ( ) function sets runtime I / O handlers
* with the functions pointed to by \ a rio .
*/
HAWK_EXPORT void hawk_rtx_setrio (
hawk_rtx_t * rtx ,
const hawk_rio_cbs_t * rio
) ;
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HAWK_EXPORT void hawk_rtx_killecb (
hawk_rtx_t * rtx , /**< runtime context */
hawk_rtx_ecb_t * ecb /**< callback set */
) ;
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/**
* The hawk_rtx_popecb ( ) function pops a runtime callback set
* and returns the pointer to it . If no callback set can be popped ,
* it returns # HAWK_NULL .
*/
HAWK_EXPORT hawk_rtx_ecb_t * hawk_rtx_popecb (
hawk_rtx_t * rtx /**< runtime context */
) ;
/**
* The hawk_rtx_pushecb ( ) function register a runtime callback set .
*/
HAWK_EXPORT void hawk_rtx_pushecb (
hawk_rtx_t * rtx , /**< runtime context */
hawk_rtx_ecb_t * ecb /**< callback set */
) ;
/**
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* The hawk_rtx_getnargs ( ) gets the number of arguments passed to an
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* intrinsic functon .
*/
HAWK_EXPORT hawk_oow_t hawk_rtx_getnargs (
hawk_rtx_t * rtx
) ;
/**
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* The hawk_rtx_getarg ( ) function gets an argument passed to an intrinsic
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* function . it doesn ' t touch the reference count of the value .
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_getarg (
hawk_rtx_t * rtx ,
hawk_oow_t idx
) ;
/**
* The hawk_rtx_getsubsep ( ) function returns the
* pointer to the internal value of SUBSEP . It ' s a specialized
* version of hawk_rtx_getgbl ( rtx , HAWK_GBL_SUBSEP ) .
*/
HAWK_EXPORT const hawk_oocs_t * hawk_rtx_getsubsep (
hawk_rtx_t * rtx /**< runtime context */
) ;
/**
* The hawk_rtx_getgbl ( ) gets the value of a global variable .
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* The global variable ID \ a id is one of the predefined global
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* variable IDs or a value returned by hawk_addgbl ( ) .
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* This function never fails so long as the ID is valid . Otherwise ,
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* you may get into trouble .
*
* \ return value pointer
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_getgbl (
hawk_rtx_t * rtx , /**< runtime context */
int id /**< global variable ID */
) ;
/**
* The hawk_rtx_setgbl ( ) sets the value of a global variable .
*/
HAWK_EXPORT int hawk_rtx_setgbl (
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hawk_rtx_t * rtx ,
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int id ,
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hawk_val_t * val
) ;
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HAWK_EXPORT int hawk_rtx_setgbltostrbyname (
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hawk_rtx_t * rtx ,
const hawk_ooch_t * name ,
const hawk_ooch_t * val
) ;
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/**
* The hawk_rtx_setretval ( ) sets the return value of a function
* when called from within a function handler . The caller doesn ' t
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* have to invoke hawk_rtx_refupval ( ) and hawk_rtx_refdownval ( )
* with the value to be passed to hawk_rtx_setretval ( ) .
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* The hawk_rtx_setretval ( ) will update its reference count properly
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* once the return value is set .
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*/
HAWK_EXPORT void hawk_rtx_setretval (
hawk_rtx_t * rtx , /**< runtime context */
hawk_val_t * val /**< return value */
) ;
/**
* The hawk_rtx_setfilename ( ) function sets FILENAME .
*/
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HAWK_EXPORT int hawk_rtx_setfilenamewithuchars (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_uch_t * str , /**< name pointer */
hawk_oow_t len /**< name length */
) ;
HAWK_EXPORT int hawk_rtx_setfilenamewithbchars (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_bch_t * str , /**< name pointer */
hawk_oow_t len /**< name length */
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) ;
/**
* The hawk_rtx_setofilename ( ) function sets OFILENAME .
*/
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HAWK_EXPORT int hawk_rtx_setofilenamewithuchars (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_uch_t * str , /**< name pointer */
hawk_oow_t len /**< name length */
) ;
HAWK_EXPORT int hawk_rtx_setofilenamewithbchars (
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hawk_rtx_t * rtx , /**< runtime context */
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const hawk_bch_t * str , /**< name pointer */
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hawk_oow_t len /**< name length */
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) ;
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HAWK_EXPORT int hawk_rtx_setscriptnamewithuchars (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_uch_t * str , /**< name pointer */
hawk_oow_t len /**< name length */
) ;
HAWK_EXPORT int hawk_rtx_setscriptnamewithbchars (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_bch_t * str , /**< name pointer */
hawk_oow_t len /**< name length */
) ;
# if defined(HAWK_OOCH_IS_UCH)
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# define hawk_rtx_setfilenamewithoochars hawk_rtx_setfilenamewithuchars
# define hawk_rtx_setofilenamewithoochars hawk_rtx_setofilenamewithuchars
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# define hawk_rtx_setscriptnamewithoochars hawk_rtx_setscriptnamewithuchars
# else
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# define hawk_rtx_setfilenamewithoochars hawk_rtx_setfilenamewithbchars
# define hawk_rtx_setofilenamewithoochars hawk_rtx_setofilenamewithbchars
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# define hawk_rtx_setscriptnamewithoochars hawk_rtx_setscriptnamewithbchars
# endif
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/**
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* The hawk_rtx_getnvmap ( ) gets the map of named variables
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*/
HAWK_EXPORT hawk_htb_t * hawk_rtx_getnvmap (
hawk_rtx_t * rtx /**< runtime context */
) ;
/**
* The hawk_rtx_geterrnum ( ) function gets the number of the last error
* occurred during runtime .
* \ return error number
*/
/**
* The hawk_rtx_geterrloc ( ) function gets the location of the last error
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* occurred during runtime . The
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* \ return error location
*/
/**
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* The hawk_rtx_geterrbmsg ( ) function gets the string describing the last
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* error occurred during runtime .
* \ return error message
*/
/**
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* The hawk_rtx_geterrumsg ( ) function gets the string describing the last
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* error occurred during runtime .
* \ return error message
*/
/**
* The hawk_rtx_geterrinf ( ) function copies error information into memory
* pointed to by \ a errinf from a runtime context \ a rtx .
*/
/**
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* The hawk_rtx_geterror ( ) function retrieves error information from a
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* runtime context \ a rtx . The error number is stored into memory pointed
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* to by \ a errnum ; the error message pointer into memory pointed to by
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* \ a errmsg ; the error line into memory pointed to by \ a errlin .
*/
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# if defined(HAWK_HAVE_INLINE)
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static HAWK_INLINE hawk_errnum_t hawk_rtx_geterrnum ( hawk_rtx_t * rtx ) { return ( ( hawk_rtx_alt_t * ) rtx ) - > _gem . errnum ; }
static HAWK_INLINE const hawk_loc_t * hawk_rtx_geterrloc ( hawk_rtx_t * rtx ) { return hawk_gem_geterrloc ( hawk_rtx_getgem ( rtx ) ) ; }
static HAWK_INLINE const hawk_bch_t * hawk_rtx_geterrbmsg ( hawk_rtx_t * rtx ) { return hawk_gem_geterrbmsg ( hawk_rtx_getgem ( rtx ) ) ; }
static HAWK_INLINE const hawk_uch_t * hawk_rtx_geterrumsg ( hawk_rtx_t * rtx ) { return hawk_gem_geterrumsg ( hawk_rtx_getgem ( rtx ) ) ; }
static HAWK_INLINE void hawk_rtx_geterrinf ( hawk_rtx_t * rtx , hawk_errinf_t * errinf ) { return hawk_gem_geterrinf ( hawk_rtx_getgem ( rtx ) , errinf ) ; }
static HAWK_INLINE void hawk_rtx_geterror ( hawk_rtx_t * rtx , hawk_errnum_t * errnum , const hawk_ooch_t * * errmsg , hawk_loc_t * errloc ) { return hawk_gem_geterror ( hawk_rtx_getgem ( rtx ) , errnum , errmsg , errloc ) ; }
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# else
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# define hawk_rtx_geterrnum(rtx) (((hawk_rtx_alt_t*)(rtx))->_gem.errnum)
# define hawk_rtx_geterrloc(rtx) (hawk_gem_geterrloc(hawk_rtx_getgem(rtx)))
# define hawk_rtx_geterrbmsg(rtx) (hawk_gem_geterrbmsg(hawk_rtx_getgem(rtx)))
# define hawk_rtx_geterrumsg(rtx) (hawk_gem_geterrumsg(hawk_rtx_getgem(rtx)))
# define hawk_rtx_geterrinf(rtx, errinf) (hawk_gem_geterrinf(hawk_rtx_getgem(rtx), errinf))
# define hawk_rtx_geterror(rtx, errnum, errmsg, errloc) (hawk_gem_geterror(hawk_rtx_getgem(rtx), errnum, errmsg, errloc))
# endif
# if defined(HAWK_OOCH_IS_BCH)
# define hawk_rtx_geterrmsg hawk_rtx_geterrbmsg
# else
# define hawk_rtx_geterrmsg hawk_rtx_geterrumsg
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# endif
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/**
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* The hawk_rtx_seterrinf ( ) function sets error information .
*/
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# if defined(HAWK_HAVE_INLINE)
static HAWK_INLINE void hawk_rtx_seterrnum ( hawk_rtx_t * rtx , const hawk_loc_t * errloc , hawk_errnum_t errnum ) { hawk_gem_seterrnum ( hawk_rtx_getgem ( rtx ) , errloc , errnum ) ; }
static HAWK_INLINE void hawk_rtx_seterrinf ( hawk_rtx_t * rtx , const hawk_errinf_t * errinf ) { hawk_gem_seterrinf ( hawk_rtx_getgem ( rtx ) , errinf ) ; }
static HAWK_INLINE void hawk_rtx_seterror ( hawk_rtx_t * rtx , const hawk_loc_t * errloc , hawk_errnum_t errnum , const hawk_oocs_t * errarg ) { hawk_gem_seterror ( hawk_rtx_getgem ( rtx ) , errloc , errnum , errarg ) ; }
static HAWK_INLINE const hawk_ooch_t * hawk_rtx_backuperrmsg ( hawk_rtx_t * rtx ) { return hawk_gem_backuperrmsg ( hawk_rtx_getgem ( rtx ) ) ; }
# else
# define hawk_rtx_seterrnum(rtx, errloc, errnum) hawk_gem_seterrnum(hawk_rtx_getgem(rtx), errloc, errnum)
# define hawk_rtx_seterrinf(rtx, errinf) hawk_gem_seterrinf(hawk_rtx_getgem(rtx), errinf)
# define hawk_rtx_seterror(rtx, errloc, errnum, errarg) hawk_gem_seterror(hawk_rtx_getgem(rtx), errloc, errnum, errarg)
# define hawk_rtx_backuperrmsg(rtx) hawk_gem_backuperrmsg(hawk_rtx_getgem(rtx))
# endif
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HAWK_EXPORT void hawk_rtx_seterrbfmt (
hawk_rtx_t * rtx ,
const hawk_loc_t * errloc ,
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hawk_errnum_t errnum ,
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const hawk_bch_t * errfmt ,
. . .
) ;
HAWK_EXPORT void hawk_rtx_seterrufmt (
hawk_rtx_t * rtx ,
const hawk_loc_t * errloc ,
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hawk_errnum_t errnum ,
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const hawk_uch_t * errfmt ,
. . .
) ;
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HAWK_EXPORT void hawk_rtx_seterrbvfmt (
hawk_rtx_t * rtx ,
const hawk_loc_t * errloc ,
hawk_errnum_t errnum ,
const hawk_bch_t * errfmt ,
va_list ap
) ;
HAWK_EXPORT void hawk_rtx_seterruvfmt (
hawk_rtx_t * rtx ,
const hawk_loc_t * errloc ,
hawk_errnum_t errnum ,
const hawk_uch_t * errfmt ,
va_list ap
) ;
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# if defined(HAWK_OOCH_IS_UCH)
# define hawk_rtx_seterrfmt hawk_rtx_seterrufmt
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# define hawk_rtx_seterrvfmt hawk_rtx_seterruvfmt
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# else
# define hawk_rtx_seterrfmt hawk_rtx_seterrbfmt
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# define hawk_rtx_seterrvfmt hawk_rtx_seterrbvfmt
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# endif
/**
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* The hawk_rtx_errortohawk ( ) function copies the error information stored
* in the \ a rtx object to the \ a hawk object .
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*/
HAWK_EXPORT void hawk_rtx_errortohawk (
hawk_rtx_t * rtx ,
hawk_t * hawk
) ;
/**
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* The hawk_rtx_clrrec ( ) function clears the input record ( $ 0 )
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* and fields ( $ 1 to $ N ) .
*/
HAWK_EXPORT int hawk_rtx_clrrec (
hawk_rtx_t * rtx , /**< runtime context */
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int skip_inrec_line
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) ;
/**
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* The hawk_rtx_setrec ( ) function sets the input record ( $ 0 ) or
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* input fields ( $ 1 to $ N ) .
*/
HAWK_EXPORT int hawk_rtx_setrec (
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hawk_rtx_t * rtx , /**< runtime context */
hawk_oow_t idx , /**< 0 for $0, N for $N */
const hawk_oocs_t * str , /**< string */
int prefer_number /* if true, a numeric string makes an int or flt value */
) ;
/**
* The hawk_rtx_truncrec ( ) function lowered the number of fields in a record .
* The caller must ensure that \ a nflds is less than the current number of fields
*/
HAWK_EXPORT int hawk_rtx_truncrec (
hawk_rtx_t * rtx ,
hawk_oow_t nflds
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) ;
/**
* The hawk_rtx_isnilval ( ) function determines if a value
* is a nil value .
*/
HAWK_EXPORT int hawk_rtx_isnilval (
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hawk_rtx_t * rtx ,
const hawk_val_t * val
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) ;
/**
* The hawk_rtx_makenilval ( ) function creates a nil value .
* It always returns the pointer to the statically allocated
* nil value . So it never fails .
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_makenilval (
hawk_rtx_t * rtx
) ;
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HAWK_EXPORT hawk_val_t * hawk_rtx_makecharval (
hawk_rtx_t * rtx ,
hawk_ooch_t v
) ;
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HAWK_EXPORT hawk_val_t * hawk_rtx_makebchrval (
hawk_rtx_t * rtx ,
hawk_bch_t v
) ;
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/**
* The hawk_rtx_makeintval ( ) function creates an integer value .
* If \ a v is one of - 1 , 0 , 1 , this function never fails .
* \ return value on success , # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_makeintval (
hawk_rtx_t * rtx ,
hawk_int_t v
) ;
/**
* The hawk_rtx_makefltval ( ) function creates a floating - point value .
* \ return value on success , # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_makefltval (
hawk_rtx_t * rtx ,
hawk_flt_t v
) ;
/* -------------------------------------------------------------------------- */
HAWK_EXPORT hawk_val_t * hawk_rtx_makestrvalwithuchars (
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hawk_rtx_t * rtx ,
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const hawk_uch_t * ucs ,
hawk_oow_t len
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makestrvalwithbchars (
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hawk_rtx_t * rtx ,
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const hawk_bch_t * bcs ,
hawk_oow_t len
) ;
/**
* The hawk_rtx_makestrvalwithbcstr ( ) function creates a string value
* from a null - terminated multibyte string .
* \ return value on success , # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_makestrvalwithbcstr (
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hawk_rtx_t * rtx ,
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const hawk_bch_t * bcs
) ;
/**
* The hawk_rtx_makestrvalwithucstr ( ) function creates a string value
* from a null - terminated wide - character string .
* \ return value on success , # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_makestrvalwithucstr (
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hawk_rtx_t * rtx ,
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const hawk_uch_t * ucs
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makestrvalwithbcs (
hawk_rtx_t * rtx ,
const hawk_bcs_t * bcs
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makestrvalwithucs (
hawk_rtx_t * rtx ,
const hawk_ucs_t * ucs
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makestrvalwithuchars2 (
hawk_rtx_t * rtx ,
const hawk_uch_t * str1 ,
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hawk_oow_t len1 ,
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const hawk_uch_t * str2 ,
hawk_oow_t len2
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makestrvalwithbchars2 (
hawk_rtx_t * rtx ,
const hawk_bch_t * str1 ,
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hawk_oow_t len1 ,
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const hawk_bch_t * str2 ,
hawk_oow_t len2
) ;
/* -------------------------------------------------------------------------- */
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HAWK_EXPORT hawk_val_t * hawk_rtx_makenumorstrvalwithuchars (
hawk_rtx_t * rtx ,
const hawk_uch_t * ptr ,
hawk_oow_t len
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makenumorstrvalwithbchars (
hawk_rtx_t * rtx ,
const hawk_bch_t * ptr ,
hawk_oow_t len
) ;
/* -------------------------------------------------------------------------- */
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HAWK_EXPORT hawk_val_t * hawk_rtx_makenstrvalwithuchars (
hawk_rtx_t * rtx ,
const hawk_uch_t * ptr ,
hawk_oow_t len
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makenstrvalwithbchars (
hawk_rtx_t * rtx ,
const hawk_bch_t * ptr ,
hawk_oow_t len
) ;
/**
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* The hawk_rtx_makenstrvalwithucstr ( ) function creates a numeric string
* value from a null - terminated string . A numeric string is a string value
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* whose one of the header fields \ b nstr is 1.
* \ return value on success , # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_makenstrvalwithucstr (
hawk_rtx_t * rtx ,
const hawk_uch_t * str
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makenstrvalwithbcstr (
hawk_rtx_t * rtx ,
const hawk_bch_t * str
) ;
/**
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* The hawk_rtx_makenstrvalwithucs ( ) function creates a numeric string
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* value . A numeric string is a string value whose one of the header fields
* \ b nstr is 1.
* \ return value on success , # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_makenstrvalwithucs (
hawk_rtx_t * rtx ,
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const hawk_ucs_t * str
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) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makenstrvalwithbcs (
hawk_rtx_t * rtx ,
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const hawk_bcs_t * str
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) ;
# if defined (HAWK_OOCH_IS_UCH)
# define hawk_rtx_makestrvalwithoochars hawk_rtx_makestrvalwithuchars
# define hawk_rtx_makestrvalwithoocstr hawk_rtx_makestrvalwithucstr
# define hawk_rtx_makestrvalwithoocs hawk_rtx_makestrvalwithucs
# define hawk_rtx_makestrvalwithoochars2 hawk_rtx_makestrvalwithuchars2
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# define hawk_rtx_makenumorstrvalwithoochars hawk_rtx_makenumorstrvalwithuchars
# define hawk_rtx_makenstrvalwithoochars hawk_rtx_makenstrvalwithuchars
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# define hawk_rtx_makenstrvalwithoocstr hawk_rtx_makenstrvalwithucstr
# define hawk_rtx_makenstrvalwithoocs hawk_rtx_makenstrvalwithucs
# else
# define hawk_rtx_makestrvalwithoochars hawk_rtx_makestrvalwithbchars
# define hawk_rtx_makestrvalwithoocstr hawk_rtx_makestrvalwithbcstr
# define hawk_rtx_makestrvalwithoocs hawk_rtx_makestrvalwithbcs
# define hawk_rtx_makestrvalwithoochars2 hawk_rtx_makestrvalwithbchars2
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# define hawk_rtx_makenumorstrvalwithoochars hawk_rtx_makenumorstrvalwithbchars
# define hawk_rtx_makenstrvalwithoochars hawk_rtx_makenstrvalwithbchars
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# define hawk_rtx_makenstrvalwithoocstr hawk_rtx_makenstrvalwithbcstr
# define hawk_rtx_makenstrvalwithoocs hawk_rtx_makenstrvalwithbcs
# endif
/* -------------------------------------------------------------------------- */
/**
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* The hawk_rtx_makembsvalwithbchars ( ) function create a byte array value .
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* \ return value on success , # HAWK_NULL on failure
*/
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HAWK_EXPORT hawk_val_t * hawk_rtx_makembsvalwithbchars (
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hawk_rtx_t * rtx ,
const hawk_bch_t * ptr ,
hawk_oow_t len
) ;
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HAWK_EXPORT hawk_val_t * hawk_rtx_makembsvalwithuchars (
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hawk_rtx_t * rtx ,
const hawk_uch_t * ptr ,
hawk_oow_t len
) ;
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HAWK_EXPORT hawk_val_t * hawk_rtx_makembsvalwithbcs (
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hawk_rtx_t * rtx ,
const hawk_bcs_t * bcs
) ;
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HAWK_EXPORT hawk_val_t * hawk_rtx_makembsvalwithucs (
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hawk_rtx_t * rtx ,
const hawk_ucs_t * ucs
) ;
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HAWK_EXPORT hawk_val_t * hawk_rtx_makembsvalwithbcstr (
hawk_rtx_t * rtx ,
const hawk_bch_t * bcs
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makembsvalwithucstr (
hawk_rtx_t * rtx ,
const hawk_uch_t * ucs
) ;
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HAWK_EXPORT hawk_val_t * hawk_rtx_makembsvalwithuchars2 (
hawk_rtx_t * rtx ,
const hawk_uch_t * ucs1 ,
hawk_oow_t len1 ,
const hawk_uch_t * ucs2 ,
hawk_oow_t len2
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makembsvalwithbchars2 (
hawk_rtx_t * rtx ,
const hawk_bch_t * bcs1 ,
hawk_oow_t len1 ,
const hawk_bch_t * bcs2 ,
hawk_oow_t len2
) ;
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/* -------------------------------------------------------------------------- */
HAWK_EXPORT hawk_val_t * hawk_rtx_makenumormbsvalwithuchars (
hawk_rtx_t * rtx ,
const hawk_uch_t * ptr ,
hawk_oow_t len
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makenumormbsvalwithbchars (
hawk_rtx_t * rtx ,
const hawk_bch_t * ptr ,
hawk_oow_t len
) ;
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/* -------------------------------------------------------------------------- */
/**
* The hawk_rtx_makerexval ( ) function creates a regular expression value .
* \ return value on success , # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_makerexval (
hawk_rtx_t * rtx ,
const hawk_oocs_t * str ,
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hawk_tre_t * code [ 2 ]
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) ;
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/**
* The hawk_rtx_makemapval ( ) function creates an empty array value .
* \ return value on success , # HAWK_NULL on failure
*/
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HAWK_EXPORT hawk_val_t * hawk_rtx_makearrval (
hawk_rtx_t * rtx ,
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hawk_ooi_t init_capa
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) ;
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/**
* The hawk_rtx_makemapval ( ) function creates an empty map value .
* \ return value on success , # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_makemapval (
hawk_rtx_t * rtx
) ;
/**
* The hawk_rtx_makemapvalwithdata ( ) function creates a map value
* containing key / value pairs described in the structure array \ a data .
* It combines hawk_rtx_makemapval ( ) an hawk_rtx_setmapvalfld ( )
* for convenience sake .
* \ return value on success , # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_makemapvalwithdata (
hawk_rtx_t * rtx ,
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hawk_val_map_data_t data [ ] ,
hawk_oow_t count
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) ;
/**
* The hawk_rtx_setmapvalfld ( ) function sets a field value in a map .
* You must make sure that the type of \ a map is # HAWK_VAL_MAP .
* \ return value \ a v on success , # HAWK_NULL on failure .
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_setmapvalfld (
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hawk_rtx_t * rtx ,
hawk_val_t * map ,
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const hawk_ooch_t * kptr ,
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hawk_oow_t klen ,
hawk_val_t * v
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) ;
/**
* The hawk_rtx_setmapvalfld ( ) function gets the field value in a map .
* You must make sure that the type of \ a map is # HAWK_VAL_MAP .
* If the field is not found , the function fails and sets the error number
* to # HAWK_EINVAL . The function does not fail for other reasons .
* \ return field value on success , # HAWK_NULL on failure .
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_getmapvalfld (
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hawk_rtx_t * rtx ,
hawk_val_t * map ,
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const hawk_ooch_t * kptr ,
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hawk_oow_t klen
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) ;
/**
* The hawk_rtx_getfirstmapvalitr ( ) returns the iterator to the
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* first pair in the map . It returns # HAWK_NULL and sets the pair field of
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* \ a itr to # HAWK_NULL if the map contains no pair . Otherwise , it returns
* \ a itr pointing to the first pair .
*/
HAWK_EXPORT hawk_val_map_itr_t * hawk_rtx_getfirstmapvalitr (
hawk_rtx_t * rtx ,
hawk_val_t * map ,
hawk_val_map_itr_t * itr
) ;
/**
* The hawk_rtx_getnextmapvalitr ( ) returns the iterator to the
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* next pair to \ a itr in the map . It returns # HAWK_NULL and sets the pair
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* field of \ a itr to # HAWK_NULL if \ a itr points to the last pair .
* Otherwise , it returns \ a itr pointing to the next pair .
*/
HAWK_EXPORT hawk_val_map_itr_t * hawk_rtx_getnextmapvalitr (
hawk_rtx_t * rtx ,
hawk_val_t * map ,
hawk_val_map_itr_t * itr
) ;
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HAWK_EXPORT hawk_val_t * hawk_rtx_setarrvalfld (
hawk_rtx_t * rtx ,
hawk_val_t * arr ,
hawk_ooi_t index ,
hawk_val_t * v
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_getarrvalfld (
hawk_rtx_t * rtx ,
hawk_val_t * arr ,
hawk_ooi_t index
) ;
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/**
* The hawk_rtx_makerefval ( ) function creates a reference value .
* \ return value on success , # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_val_t * hawk_rtx_makerefval (
hawk_rtx_t * rtx ,
int id ,
hawk_val_t * * adr
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_makefunval (
hawk_rtx_t * rtx ,
const hawk_fun_t * fun
) ;
/**
* The hawk_rtx_isstaticval ( ) function determines if a value is static .
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* A static value is allocated once and reused until a runtime context @ rtx
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* is closed .
* \ return HAWK_TRUE if \ a val is static , HAWK_FALSE if \ a val is false
*/
HAWK_EXPORT int hawk_rtx_isstaticval (
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hawk_rtx_t * rtx , /**< runtime context */
const hawk_val_t * val /**< value to check */
2019-12-13 04:29:58 +00:00
) ;
HAWK_EXPORT int hawk_rtx_getvaltype (
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hawk_rtx_t * rtx ,
const hawk_val_t * val
2019-12-13 04:29:58 +00:00
) ;
HAWK_EXPORT const hawk_ooch_t * hawk_rtx_getvaltypename (
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hawk_rtx_t * rtx ,
const hawk_val_t * val
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) ;
HAWK_EXPORT int hawk_rtx_getintfromval (
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hawk_rtx_t * rtx ,
const hawk_val_t * val
2019-12-13 04:29:58 +00:00
) ;
/**
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* The hawk_rtx_refupval ( ) function increments a reference count of a
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* value \ a val .
*/
HAWK_EXPORT void hawk_rtx_refupval (
hawk_rtx_t * rtx , /**< runtime context */
hawk_val_t * val /**< value */
) ;
/**
* The hawk_rtx_refdownval ( ) function decrements a reference count of
* a value \ a val . It destroys the value if it has reached the count of 0.
*/
HAWK_EXPORT void hawk_rtx_refdownval (
hawk_rtx_t * rtx , /**< runtime context */
hawk_val_t * val /**< value pointer */
) ;
/**
* The hawk_rtx_refdownval ( ) function decrements a reference count of
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* a value \ a val . It does not destroy the value if it has reached the
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* count of 0.
*/
HAWK_EXPORT void hawk_rtx_refdownval_nofree (
hawk_rtx_t * rtx , /**< runtime context */
hawk_val_t * val /**< value pointer */
) ;
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# define HAWK_RTX_GC_GEN_FULL (HAWK_TYPE_MAX(int))
# define HAWK_RTX_GC_GEN_AUTO (-1)
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/*
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* The hawk_rtx_gc ( ) function triggers garbage collection .
2020-03-28 08:04:37 +00:00
* It returns the generation number collected and never fails
*/
HAWK_EXPORT int hawk_rtx_gc (
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hawk_rtx_t * rtx ,
int gen
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) ;
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/**
* The hawk_rtx_valtobool ( ) function converts a value \ a val to a boolean
* value .
*/
HAWK_EXPORT int hawk_rtx_valtobool (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_val_t * val /**< value pointer */
) ;
/**
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* The hawk_rtx_valtostr ( ) function converts a value \ a val to a string as
* instructed in the parameter out . Before the call to the function , you
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* should initialize a variable of the # hawk_rtx_valtostr_out_t type .
*
* The type field is one of the following hawk_rtx_valtostr_type_t values :
*
* - # HAWK_RTX_VALTOSTR_CPL
* - # HAWK_RTX_VALTOSTR_CPLCPY
* - # HAWK_RTX_VALTOSTR_CPLDUP
* - # HAWK_RTX_VALTOSTR_STRP
* - # HAWK_RTX_VALTOSTR_STRPCAT
*
* It can optionally be ORed with # HAWK_RTX_VALTOSTR_PRINT . The option
* causes the function to use OFMT for real number conversion . Otherwise ,
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* it uses \ b CONVFMT .
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*
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* You should initialize or free other fields before and after the call
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* depending on the type field as shown below :
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*
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* If you have a static buffer , use # HAWK_RTX_VALTOSTR_CPLCPY .
* the resulting string is copied to the buffer .
* \ code
* hawk_rtx_valtostr_out_t out ;
* hawk_ooch_t buf [ 100 ] ;
* out . type = HAWK_RTX_VALTOSTR_CPLCPY ;
* out . u . cplcpy . ptr = buf ;
* out . u . cplcpy . len = HAWK_COUNTOF ( buf ) ;
* if ( hawk_rtx_valtostr ( rtx , v , & out ) < = - 1 ) goto oops ;
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* hawk_printf ( HAWK_T ( " %.*s \n " ) , out . u . cplcpy . len , out . u . cplcpy . ptr ) ;
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* \ endcode
*
* # HAWK_RTX_VALTOSTR_CPL is different from # HAWK_RTX_VALTOSTR_CPLCPY
* in that it doesn ' t copy the string to the buffer if the type of the value
* is # HAWK_VAL_STR . It copies the resulting string to the buffer if
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* the value type is not # HAWK_VAL_STR .
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* \ code
* hawk_rtx_valtostr_out_t out ;
* hawk_ooch_t buf [ 100 ] ;
* out . type = HAWK_RTX_VALTOSTR_CPL ;
* out . u . cpl . ptr = buf ;
* out . u . cpl . len = HAWK_COUNTOF ( buf ) ;
* if ( hawk_rtx_valtostr ( rtx , v , & out ) < = - 1 ) goto oops ;
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* hawk_printf ( HAWK_T ( " %.*s \n " ) , ut . u . cpl . len , out . u . cpl . ptr ) ;
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* \ endcode
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*
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* When unsure of the size of the string after conversion , you can use
* # HAWK_RTX_VALTOSTR_CPLDUP . However , you should free the memory block
* pointed to by the u . cpldup . ptr field after use .
* \ code
* hawk_rtx_valtostr_out_t out ;
* out . type = HAWK_RTX_VALTOSTR_CPLDUP ;
* if ( hawk_rtx_valtostr ( rtx , v , & out ) < = - 1 ) goto oops ;
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* hawk_printf ( HAWK_T ( " %.*s \n " ) , out . u . cpldup . len , out . u . cpldup . ptr ) ;
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* hawk_rtx_free ( rtx , out . u . cpldup . ptr ) ;
* \ endcode
*
* You may like to store the result in a dynamically resizable string .
* Consider # HAWK_RTX_VALTOSTR_STRP .
* \ code
* hawk_rtx_valtostr_out_t out ;
* hawk_ooecs_t str ;
* hawk_str_init ( & str , hawk_rtx_getmmgr ( rtx ) , 100 ) ;
* out . type = HAWK_RTX_VALTOSTR_STRP ;
* out . u . strp = str ;
* if ( hawk_rtx_valtostr ( rtx , v , & out ) < = - 1 ) goto oops ;
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* hawk_printf ( HAWK_T ( " %.*s \n " ) , HAWK_STR_LEN ( out . u . strp ) , HAWK_STR_PTR ( out . u . strp ) ) ;
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* hawk_str_fini ( & str ) ;
* \ endcode
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*
* If you want to append the converted string to an existing dynamically
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* resizable string , # HAWK_RTX_VALTOSTR_STRPCAT is the answer . The usage is
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* the same as # HAWK_RTX_VALTOSTR_STRP except that you have to use the
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* u . strpcat field instead of the u . strp field .
*
* In the context where \ a val is determined to be of the type
* # HAWK_VAL_STR , you may access its string pointer and length directly
* instead of calling this function .
*
* \ return 0 on success , - 1 on failure
*/
HAWK_EXPORT int hawk_rtx_valtostr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_val_t * val , /**< value to convert */
hawk_rtx_valtostr_out_t * out /**< output buffer */
) ;
/**
* The hawk_rtx_valtooocstrdupwithcmgr ( ) function duplicates a string value and returns
* the pointer to it . If the given value is not a string , it converts the non - string
* value to a string and duplicates it . It stores the length of the resulting
* string in memory pointed to by \ a len .
* You should free the returned memory block after use . See the code snippet below
* for a simple usage .
*
* \ code
* ptr = hawk_rtx_valtoucstrdupwithcmgr ( rtx , v , & len , hawk_rtx_getcmgr ( rtx ) ) ;
* if ( ! str ) handle_error ( ) ;
* hawk_printf ( HAWK_T ( " %.*ls \n " ) , ( int ) len , ptr ) ;
* hawk_rtx_free ( rtx , ptr ) ;
* \ endcode
*
* \ return character pointer to a duplicated string on success ,
* # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_bch_t * hawk_rtx_valtobcstrdupwithcmgr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_val_t * val , /**< value to convert */
2020-03-05 06:33:58 +00:00
hawk_oow_t * len , /**< result length */
hawk_cmgr_t * cmgr
2019-12-13 04:29:58 +00:00
) ;
HAWK_EXPORT hawk_uch_t * hawk_rtx_valtoucstrdupwithcmgr (
hawk_rtx_t * rtx , /**< runtime context */
const hawk_val_t * val , /**< value to convert */
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hawk_oow_t * len , /**< result length */
hawk_cmgr_t * cmgr
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) ;
# define hawk_rtx_valtobcstrdup(rtx, val, len) hawk_rtx_valtobcstrdupwithcmgr(rtx, val, len, hawk_rtx_getcmgr(rtx))
# define hawk_rtx_valtoucstrdup(rtx, val, len) hawk_rtx_valtoucstrdupwithcmgr(rtx, val, len, hawk_rtx_getcmgr(rtx))
# if defined(HAWK_OOCH_IS_BCH)
# define hawk_rtx_valtooocstrdupwithcmgr(rtx, val, len, cmgr) hawk_rtx_valtobcstrdupwithcmgr(rtx, val, len, cmgr)
# define hawk_rtx_valtooocstrdup(rtx, val, len) hawk_rtx_valtobcstrdup(rtx, val, len)
# else
# define hawk_rtx_valtooocstrdupwithcmgr(rtx, val, len, cmgr) hawk_rtx_valtoucstrdupwithcmgr(rtx, val, len, cmgr)
# define hawk_rtx_valtooocstrdup(rtx, val, len) hawk_rtx_valtoucstrdup(rtx, val, len)
# endif
/**
* The hawk_rtx_getvaloocstr ( ) function returns a string
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* pointer converted from a value \ a val . If the value
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* type is # HAWK_VAL_STR , it simply returns the internal
* pointer without duplication . Otherwise , it calls
* hawk_rtx_valtooocstrdup ( ) . The length of the returned
* string is stored into the location pointed to by \ a len .
*/
HAWK_EXPORT hawk_ooch_t * hawk_rtx_getvaloocstrwithcmgr (
hawk_rtx_t * rtx , /**< runtime context */
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hawk_val_t * val , /**< value to convert */
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hawk_oow_t * len , /**< result length */
hawk_cmgr_t * cmgr
) ;
# define hawk_rtx_getvaloocstr(rtx,val,len) hawk_rtx_getvaloocstrwithcmgr(rtx, val, len, hawk_rtx_getcmgr(rtx))
/**
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* The hawk_rtx_freevaloocstr ( ) function frees the memory pointed
* to by \ a str if \ a val is not of the # HAWK_VAL_STR type .
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* This function expects a value pointer and a string pointer
* passed to and returned by hawk_rtx_getvaloocstr ( ) respectively .
*/
HAWK_EXPORT void hawk_rtx_freevaloocstr (
hawk_rtx_t * rtx , /**< runtime context */
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hawk_val_t * val , /**< value to convert */
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hawk_ooch_t * str /**< string pointer */
) ;
HAWK_EXPORT hawk_bch_t * hawk_rtx_getvalbcstrwithcmgr (
hawk_rtx_t * rtx , /**< runtime context */
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hawk_val_t * val , /**< value to convert */
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hawk_oow_t * len , /**< result length */
hawk_cmgr_t * cmgr
) ;
# define hawk_rtx_getvalbcstr(rtx, val, len) hawk_rtx_getvalbcstrwithcmgr(rtx, val, len, hawk_rtx_getcmgr(rtx))
HAWK_EXPORT void hawk_rtx_freevalbcstr (
hawk_rtx_t * rtx , /**< runtime context */
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hawk_val_t * val , /**< value to convert */
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hawk_bch_t * str /**< string pointer */
) ;
/**
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* The hawk_rtx_valtonum ( ) function converts a value to a number .
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* If the value is converted to an integer , it is stored in the memory
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* pointed to by l and 0 is returned . If the value is converted to a real
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* number , it is stored in the memory pointed to by r and 1 is returned .
* The function never fails as long as \ a val points to a valid value .
*
* The code below shows how to convert a value to a number and determine
* if it is an integer or a floating - point number .
*
* \ code
* hawk_int_t l ;
* hawk_flt_t r ;
* int n ;
* n = hawk_rtx_valtonum ( v , & l , & r ) ;
* if ( n < = - 1 ) error ( ) ;
* else if ( n = = 0 ) print_int ( l ) ;
* else if ( n > = 1 ) print_flt ( r ) ;
* \ endcode
*
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* \ return - 1 on failure , 0 if converted to an integer , 1 if converted to
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* a floating - point number .
*/
HAWK_EXPORT int hawk_rtx_valtonum (
hawk_rtx_t * rtx ,
const hawk_val_t * val ,
hawk_int_t * l ,
hawk_flt_t * r
) ;
HAWK_EXPORT int hawk_rtx_valtoint (
hawk_rtx_t * rtx ,
const hawk_val_t * val ,
hawk_int_t * l
) ;
HAWK_EXPORT int hawk_rtx_valtoflt (
hawk_rtx_t * rtx ,
const hawk_val_t * val ,
hawk_flt_t * r
) ;
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HAWK_EXPORT hawk_fun_t * hawk_rtx_valtofun (
hawk_rtx_t * rtx ,
hawk_val_t * val
) ;
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/**
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* The hawk_rtx_valtofnc ( ) function finds an intrinsic function by the name
* pointed to by \ a val . Unlike hawk_findfncwithoocstr ( ) and the like ,
* it accepts a function name prefixed with a module name and find an intrinsic
* function located in a module . In principle , it combines hawk_findfncwithoocstr ( )
* and hawk_querymodulewithname ( ) .
*
* \ return \ a fnc on success , # HAWK_NULL on failure
*/
HAWK_EXPORT hawk_fnc_t * hawk_rtx_valtofnc (
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hawk_rtx_t * rtx ,
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hawk_val_t * val ,
hawk_fnc_t * fnc /**< buffer to hold the function information */
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) ;
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/**
* The hawk_rtx_hashval ( ) function hashes a simple value
* to a positive integer . It returns - 1 for a inhashable value .
*/
HAWK_EXPORT hawk_int_t hawk_rtx_hashval (
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hawk_rtx_t * rtx ,
hawk_val_t * v
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) ;
/**
* The hawk_rtx_getrefvaltype ( ) function returns the type of the value
* that the given reference points to .
*/
HAWK_EXPORT hawk_val_type_t hawk_rtx_getrefvaltype (
hawk_rtx_t * rtx ,
hawk_val_ref_t * ref
) ;
HAWK_EXPORT hawk_val_t * hawk_rtx_getrefval (
hawk_rtx_t * rtx ,
hawk_val_ref_t * ref
) ;
/**
* The hawk_rtx_setrefval ( ) function changes the value
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* of a variable referenced in \ a ref .
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* \ return 0 on success , - 1 on failure .
*/
HAWK_EXPORT int hawk_rtx_setrefval (
hawk_rtx_t * rtx ,
hawk_val_ref_t * ref ,
hawk_val_t * val
) ;
HAWK_EXPORT void hawk_rtx_setnrflt (
hawk_rtx_t * rtx ,
const hawk_nrflt_t * nrflt
) ;
HAWK_EXPORT void hawk_rtx_getnrflt (
hawk_rtx_t * rtx ,
hawk_nrflt_t * nrflt
) ;
# if defined(HAWK_HAVE_INLINE)
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static HAWK_INLINE void * hawk_rtx_allocmem ( hawk_rtx_t * rtx , hawk_oow_t size ) { return hawk_gem_allocmem ( hawk_rtx_getgem ( rtx ) , size ) ; }
static HAWK_INLINE void * hawk_rtx_reallocmem ( hawk_rtx_t * rtx , void * ptr , hawk_oow_t size ) { return hawk_gem_reallocmem ( hawk_rtx_getgem ( rtx ) , ptr , size ) ; }
static HAWK_INLINE void * hawk_rtx_callocmem ( hawk_rtx_t * rtx , hawk_oow_t size ) { return hawk_gem_callocmem ( hawk_rtx_getgem ( rtx ) , size ) ; }
static HAWK_INLINE void hawk_rtx_freemem ( hawk_rtx_t * rtx , void * ptr ) { hawk_gem_freemem ( hawk_rtx_getgem ( rtx ) , ptr ) ; }
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# else
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# define hawk_rtx_allocmem(rtx, size) hawk_gem_allocmem(hawk_rtx_getgem(rtx), size)
# define hawk_rtx_reallocmem(rtx, ptr, size) hawk_gem_reallocmem(hawk_rtx_getgem(rtx), ptr, size)
# define hawk_rtx_callocmem(rtx, size) hawk_gem_callocmem(hawk_rtx_getgem(rtx), size)
# define hawk_rtx_freemem(rtx, ptr) hawk_gem_freemem(hawk_rtx_getgem(rtx), ptr)
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# endif
/* ----------------------------------------------------------------------- */
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# if defined(HAWK_HAVE_INLINE)
static HAWK_INLINE hawk_uch_t * hawk_rtx_dupucstr ( hawk_rtx_t * rtx , const hawk_uch_t * ucs , hawk_oow_t * ucslen ) { return hawk_gem_dupucstr ( hawk_rtx_getgem ( rtx ) , ucs , ucslen ) ; }
static HAWK_INLINE hawk_bch_t * hawk_rtx_dupbcstr ( hawk_rtx_t * rtx , const hawk_bch_t * bcs , hawk_oow_t * bcslen ) { return hawk_gem_dupbcstr ( hawk_rtx_getgem ( rtx ) , bcs , bcslen ) ; }
static HAWK_INLINE hawk_uch_t * hawk_rtx_dupuchars ( hawk_rtx_t * rtx , const hawk_uch_t * ucs , hawk_oow_t ucslen ) { return hawk_gem_dupuchars ( hawk_rtx_getgem ( rtx ) , ucs , ucslen ) ; }
static HAWK_INLINE hawk_bch_t * hawk_rtx_dupbchars ( hawk_rtx_t * rtx , const hawk_bch_t * bcs , hawk_oow_t bcslen ) { return hawk_gem_dupbchars ( hawk_rtx_getgem ( rtx ) , bcs , bcslen ) ; }
static HAWK_INLINE hawk_uch_t * hawk_rtx_dupucs ( hawk_rtx_t * rtx , const hawk_ucs_t * ucs ) { return hawk_gem_dupucs ( hawk_rtx_getgem ( rtx ) , ucs ) ; }
static HAWK_INLINE hawk_bch_t * hawk_rtx_dupbcs ( hawk_rtx_t * rtx , const hawk_bcs_t * bcs ) { return hawk_gem_dupbcs ( hawk_rtx_getgem ( rtx ) , bcs ) ; }
static HAWK_INLINE hawk_uch_t * hawk_rtx_dupucstrarr ( hawk_rtx_t * rtx , const hawk_uch_t * strs [ ] , hawk_oow_t * len ) { return hawk_gem_dupucstrarr ( hawk_rtx_getgem ( rtx ) , strs , len ) ; }
static HAWK_INLINE hawk_bch_t * hawk_rtx_dupbcstrarr ( hawk_rtx_t * rtx , const hawk_bch_t * strs [ ] , hawk_oow_t * len ) { return hawk_gem_dupbcstrarr ( hawk_rtx_getgem ( rtx ) , strs , len ) ; }
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static HAWK_INLINE hawk_uch_t * hawk_rtx_dupucsarr ( hawk_rtx_t * rtx , const hawk_ucs_t * strs , hawk_oow_t * len ) { return hawk_gem_dupucsarr ( hawk_rtx_getgem ( rtx ) , strs , len ) ; }
static HAWK_INLINE hawk_bch_t * hawk_rtx_dupbcsarr ( hawk_rtx_t * rtx , const hawk_bcs_t * strs , hawk_oow_t * len ) { return hawk_gem_dupbcsarr ( hawk_rtx_getgem ( rtx ) , strs , len ) ; }
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# else
# define hawk_rtx_dupucstr(rtx, ucs, ucslen) hawk_gem_dupucstr(hawk_rtx_getgem(rtx), ucs, ucslen)
# define hawk_rtx_dupbcstr(rtx, bcs, bcslen) hawk_gem_dupbcstr(hawk_rtx_getgem(rtx), bcs, bcslen)
# define hawk_rtx_dupuchars(rtx, ucs, ucslen) hawk_gem_dupuchars(hawk_rtx_getgem(rtx), ucs, ucslen)
# define hawk_rtx_dupbchars(rtx, bcs, bcslen) hawk_gem_dupbchars(hawk_rtx_getgem(rtx), bcs, bcslen)
# define hawk_rtx_dupucs(rtx, ucs) hawk_gem_dupucs(hawk_rtx_getgem(rtx), ucs)
# define hawk_rtx_dupbcs(rtx, bcs) hawk_gem_dupbcs(hawk_rtx_getgem(rtx), bcs)
# define hawk_rtx_dupucstrarr(rtx, strs, len) hawk_gem_dupucstrarr(hawk_rtx_getgem(rtx), strs, len)
# define hawk_rtx_dupbcstrarr(rtx, strs, len) hawk_gem_dupbcstrarr(hawk_rtx_getgem(rtx), strs, len)
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# define hawk_rtx_dupucsarr(rtx, strs, len) hawk_gem_dupucsarr(hawk_rtx_getgem(rtx), strs, len)
# define hawk_rtx_dupbcsarr(rtx, strs, len) hawk_gem_dupbcsarr(hawk_rtx_getgem(rtx), strs, len)
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# endif
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# if defined(HAWK_OOCH_IS_UCH)
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# define hawk_rtx_dupoocstr hawk_rtx_dupucstr
# define hawk_rtx_dupoochars hawk_rtx_dupuchars
# define hawk_rtx_dupoocs hawk_rtx_dupucs
# define hawk_rtx_dupoocstrarr hawk_rtx_dupucstrarr
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# define hawk_rtx_dupoocsarr hawk_rtx_dupucsarr
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# else
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# define hawk_rtx_dupoocstr hawk_rtx_dupbcstr
# define hawk_rtx_dupoochars hawk_rtx_dupbchars
# define hawk_rtx_dupoocs hawk_rtx_dupbcs
# define hawk_rtx_dupoocstrarr hawk_rtx_dupbcstrarr
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# define hawk_rtx_dupoocsarr hawk_rtx_dupbcsarr
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# endif
/* ----------------------------------------------------------------------- */
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# if defined(HAWK_HAVE_INLINE)
static HAWK_INLINE int hawk_rtx_convbtouchars ( hawk_rtx_t * rtx , const hawk_bch_t * bcs , hawk_oow_t * bcslen , hawk_uch_t * ucs , hawk_oow_t * ucslen , int all ) { return hawk_gem_convbtouchars ( hawk_rtx_getgem ( rtx ) , bcs , bcslen , ucs , ucslen , all ) ; }
static HAWK_INLINE int hawk_rtx_convutobchars ( hawk_rtx_t * rtx , const hawk_uch_t * ucs , hawk_oow_t * ucslen , hawk_bch_t * bcs , hawk_oow_t * bcslen ) { return hawk_gem_convutobchars ( hawk_rtx_getgem ( rtx ) , ucs , ucslen , bcs , bcslen ) ; }
static HAWK_INLINE int hawk_rtx_convbtoucstr ( hawk_rtx_t * rtx , const hawk_bch_t * bcs , hawk_oow_t * bcslen , hawk_uch_t * ucs , hawk_oow_t * ucslen , int all ) { return hawk_gem_convbtoucstr ( hawk_rtx_getgem ( rtx ) , bcs , bcslen , ucs , ucslen , all ) ; }
static HAWK_INLINE int hawk_rtx_convutobcstr ( hawk_rtx_t * rtx , const hawk_uch_t * ucs , hawk_oow_t * ucslen , hawk_bch_t * bcs , hawk_oow_t * bcslen ) { return hawk_gem_convutobcstr ( hawk_rtx_getgem ( rtx ) , ucs , ucslen , bcs , bcslen ) ; }
# else
# define hawk_rtx_convbtouchars(rtx, bcs, bcslen, ucs, ucslen, all) hawk_gem_convbtouchars(hawk_rtx_getgem(rtx), bcs, bcslen, ucs, ucslen, all)
# define hawk_rtx_convutobchars(rtx, ucs, ucslen, bcs, bcslen) hawk_gem_convutobchars(hawk_rtx_getgem(rtx), ucs, ucslen, bcs, bcslen)
# define hawk_rtx_convbtoucstr(rtx, bcs, bcslen, ucs, ucslen, all) hawk_gem_convbtoucstr(hawk_rtx_getgem(rtx), bcs, bcslen, ucs, ucslen, all)
# define hawk_rtx_convutobcstr(rtx, ucs, ucslen, bcs, bcslen) hawk_gem_convutobcstr(hawk_rtx_getgem(rtx), ucs, ucslen, bcs, bcslen)
# endif
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/* ----------------------------------------------------------------------- */
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# if defined(HAWK_HAVE_INLINE)
static HAWK_INLINE hawk_uch_t * hawk_rtx_dupbtouchars ( hawk_rtx_t * rtx , const hawk_bch_t * bcs , hawk_oow_t _bcslen , hawk_oow_t * _ucslen , int all ) { return hawk_gem_dupbtouchars ( hawk_rtx_getgem ( rtx ) , bcs , _bcslen , _ucslen , all ) ; }
static HAWK_INLINE hawk_bch_t * hawk_rtx_duputobchars ( hawk_rtx_t * rtx , const hawk_uch_t * ucs , hawk_oow_t _ucslen , hawk_oow_t * _bcslen ) { return hawk_gem_duputobchars ( hawk_rtx_getgem ( rtx ) , ucs , _ucslen , _bcslen ) ; }
static HAWK_INLINE hawk_uch_t * hawk_rtx_dupb2touchars ( hawk_rtx_t * rtx , const hawk_bch_t * bcs1 , hawk_oow_t bcslen1 , const hawk_bch_t * bcs2 , hawk_oow_t bcslen2 , hawk_oow_t * ucslen , int all ) { return hawk_gem_dupb2touchars ( hawk_rtx_getgem ( rtx ) , bcs1 , bcslen1 , bcs2 , bcslen2 , ucslen , all ) ; }
static HAWK_INLINE hawk_bch_t * hawk_rtx_dupu2tobchars ( hawk_rtx_t * rtx , const hawk_uch_t * ucs1 , hawk_oow_t ucslen1 , const hawk_uch_t * ucs2 , hawk_oow_t ucslen2 , hawk_oow_t * bcslen ) { return hawk_gem_dupu2tobchars ( hawk_rtx_getgem ( rtx ) , ucs1 , ucslen1 , ucs2 , ucslen2 , bcslen ) ; }
static HAWK_INLINE hawk_uch_t * hawk_rtx_dupbtoucstr ( hawk_rtx_t * rtx , const hawk_bch_t * bcs , hawk_oow_t * _ucslen , int all ) { return hawk_gem_dupbtoucstr ( hawk_rtx_getgem ( rtx ) , bcs , _ucslen , all ) ; }
static HAWK_INLINE hawk_bch_t * hawk_rtx_duputobcstr ( hawk_rtx_t * rtx , const hawk_uch_t * ucs , hawk_oow_t * _bcslen ) { return hawk_gem_duputobcstr ( hawk_rtx_getgem ( rtx ) , ucs , _bcslen ) ; }
static HAWK_INLINE hawk_uch_t * hawk_rtx_dupbtoucharswithcmgr ( hawk_rtx_t * rtx , const hawk_bch_t * bcs , hawk_oow_t _bcslen , hawk_oow_t * _ucslen , hawk_cmgr_t * cmgr , int all ) { return hawk_gem_dupbtoucharswithcmgr ( hawk_rtx_getgem ( rtx ) , bcs , _bcslen , _ucslen , cmgr , all ) ; }
static HAWK_INLINE hawk_bch_t * hawk_rtx_duputobcharswithcmgr ( hawk_rtx_t * rtx , const hawk_uch_t * ucs , hawk_oow_t _ucslen , hawk_oow_t * _bcslen , hawk_cmgr_t * cmgr ) { return hawk_gem_duputobcharswithcmgr ( hawk_rtx_getgem ( rtx ) , ucs , _ucslen , _bcslen , cmgr ) ; }
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static HAWK_INLINE hawk_uch_t * hawk_rtx_dupbcstrarrtoucstr ( hawk_rtx_t * rtx , const hawk_bch_t * bcsarr [ ] , hawk_oow_t * ucslen , int all ) { return hawk_gem_dupbcstrarrtoucstr ( hawk_rtx_getgem ( rtx ) , bcsarr , ucslen , all ) ; }
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static HAWK_INLINE hawk_bch_t * hawk_rtx_dupucstrarrtobcstr ( hawk_rtx_t * rtx , const hawk_uch_t * ucsarr [ ] , hawk_oow_t * bcslen ) { return hawk_gem_dupucstrarrtobcstr ( hawk_rtx_getgem ( rtx ) , ucsarr , bcslen ) ; }
# else
# define hawk_rtx_dupbtouchars(rtx, bcs, _bcslen, _ucslen, all) hawk_gem_dupbtouchars(hawk_rtx_getgem(rtx), bcs, _bcslen, _ucslen, all)
# define hawk_rtx_duputobchars(rtx, ucs, _ucslen, _bcslen) hawk_gem_duputobchars(hawk_rtx_getgem(rtx), ucs, _ucslen, _bcslen)
# define hawk_rtx_dupb2touchars(rtx, bcs1, bcslen1, bcs2, bcslen2, ucslen, all) hawk_gem_dupb2touchars(hawk_rtx_getgem(rtx), bcs1, bcslen1, bcs2, bcslen2, ucslen, all)
# define hawk_rtx_dupu2tobchars(rtx, ucs1, ucslen1, ucs2, ucslen2, bcslen) hawk_gem_dupu2tobchars(hawk_rtx_getgem(rtx), ucs1, ucslen1, ucs2, ucslen2, bcslen)
# define hawk_rtx_dupbtoucstr(rtx, bcs, _ucslen, all) hawk_gem_dupbtoucstr(hawk_rtx_getgem(rtx), bcs, _ucslen, all)
# define hawk_rtx_duputobcstr(rtx, ucs, _bcslen) hawk_gem_duputobcstr(hawk_rtx_getgem(rtx), ucs, _bcslen)
# define hawk_rtx_dupbtoucharswithcmgr(rtx, bcs, _bcslen, _ucslen, cmgr, all) hawk_gem_dupbtoucharswithcmgr(hawk_rtx_getgem(rtx), bcs, _bcslen, _ucslen, cmgr, all)
# define hawk_rtx_duputobcharswithcmgr(rtx, ucs, _ucslen, _bcslen, cmgr) hawk_gem_duputobcharswithcmgr(hawk_rtx_getgem(rtx), ucs, _ucslen, _bcslen, cmgr)
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# define hawk_rtx_dupbcstrarrtoucstr(rtx, bcsarr, ucslen, all) hawk_gem_dupbcstrarrtoucstr(hawk_rtx_getgem(hawk), bcsarr, ucslen, all)
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# define hawk_rtx_dupucstrarrtobcstr(rtx, ucsarr, bcslen) hawk_gem_dupucstrarrtobcstr(hawk_rtx_getgem(rtx), ucsarr, bcslen)
# endif
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/* ----------------------------------------------------------------------- */
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HAWK_EXPORT hawk_oow_t hawk_rtx_fmttoucstr_ (
hawk_rtx_t * rtx ,
hawk_uch_t * buf ,
hawk_oow_t bufsz ,
const hawk_uch_t * fmt ,
. . .
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) ;
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HAWK_EXPORT hawk_oow_t hawk_rtx_fmttobcstr_ (
hawk_rtx_t * rtx ,
hawk_bch_t * buf ,
hawk_oow_t bufsz ,
const hawk_bch_t * fmt ,
. . .
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) ;
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# if defined(HAWK_HAVE_INLINE)
static HAWK_INLINE hawk_oow_t hawk_rtx_vfmttoucstr ( hawk_rtx_t * rtx , hawk_uch_t * buf , hawk_oow_t bufsz , const hawk_uch_t * fmt , va_list ap ) { return hawk_gem_vfmttoucstr ( hawk_rtx_getgem ( rtx ) , buf , bufsz , fmt , ap ) ; }
static HAWK_INLINE hawk_oow_t hawk_rtx_fmttoucstr ( hawk_rtx_t * rtx , hawk_uch_t * buf , hawk_oow_t bufsz , const hawk_uch_t * fmt , . . . ) { va_list ap ; hawk_oow_t n ; va_start ( ap , fmt ) ; n = hawk_gem_vfmttoucstr ( hawk_rtx_getgem ( rtx ) , buf , bufsz , fmt , ap ) ; va_end ( ap ) ; return n ; }
static HAWK_INLINE hawk_oow_t hawk_rtx_vfmttobcstr ( hawk_rtx_t * rtx , hawk_bch_t * buf , hawk_oow_t bufsz , const hawk_bch_t * fmt , va_list ap ) { return hawk_gem_vfmttobcstr ( hawk_rtx_getgem ( rtx ) , buf , bufsz , fmt , ap ) ; }
static HAWK_INLINE hawk_oow_t hawk_rtx_fmttobcstr ( hawk_rtx_t * rtx , hawk_bch_t * buf , hawk_oow_t bufsz , const hawk_bch_t * fmt , . . . ) { va_list ap ; hawk_oow_t n ; va_start ( ap , fmt ) ; n = hawk_gem_vfmttobcstr ( hawk_rtx_getgem ( rtx ) , buf , bufsz , fmt , ap ) ; va_end ( ap ) ; return n ; }
# else
# define hawk_rtx_vfmttoucstr(rtx, buf, bufsz, fmt, ap) hawk_gem_vfmttoucstr(hawk_rtx_getgem(rtx), buf, bufsz, fmt, ap)
# define hawk_rtx_fmttoucstr hawk_rtx_fmttoucstr_
# define hawk_rtx_vfmttobcstr(rtx, buf, bufsz, fmt, ap) hawk_gem_vfmttobcstr(hawk_rtx_getgem(rtx), buf, bufsz, fmt, ap)
# define hawk_rtx_fmttobcstr hawk_rtx_fmttobcstr_
# endif
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# if defined(HAWK_OOCH_IS_UCH)
# define hawk_rtx_vfmttooocstr hawk_rtx_vfmttoucstr
# define hawk_rtx_fmttooocstr hawk_rtx_fmttoucstr
# else
# define hawk_rtx_vfmttooocstr hawk_rtx_vfmttobcstr
# define hawk_rtx_fmttooocstr hawk_rtx_fmttobcstr
# endif
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/* ----------------------------------------------------------------------- */
HAWK_EXPORT int hawk_rtx_buildrex (
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hawk_rtx_t * rtx ,
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const hawk_ooch_t * ptn ,
hawk_oow_t len ,
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hawk_tre_t * * code ,
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hawk_tre_t * * icode
) ;
# if defined(HAWK_HAVE_INLINE)
static HAWK_INLINE void hawk_rtx_freerex ( hawk_rtx_t * rtx , hawk_tre_t * code , hawk_tre_t * icode ) { hawk_gem_freerex ( hawk_rtx_getgem ( rtx ) , code , icode ) ; }
# else
# define hawk_rtx_freerex(rtx, code, icode) hawk_gem_freerex(hawk_rtx_getgem(rtx), code, icode)
# endif
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/* ----------------------------------------------------------------------- */
/**
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* The hawk_get_nil_val ( ) function returns the pointer to the predefined
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* nil value . you can call this without creating a runtime context .
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*/
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HAWK_EXPORT hawk_val_t * hawk_get_nil_val (
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void
) ;
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HAWK_EXPORT int hawk_get_val_type (
hawk_val_t * val
) ;
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HAWK_EXPORT const hawk_ooch_t * hawk_get_val_type_name (
hawk_val_t * val
) ;
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# if defined(__cplusplus)
}
# endif
# endif