Parser/string_parser.h - platform/external/python/cpython3 - Gitiles

 #ifndef STRINGS_H
 #define STRINGS_H

 #include <Python.h>
 #include <pycore_ast.h>
 #include "pegen.h"

 #define EXPRLIST_N_CACHED  64

 typedef struct {
     /* Incrementally build an array of expr_ty, so be used in an
        asdl_seq. Cache some small but reasonably sized number of
        expr_ty's, and then after that start dynamically allocating,
        doubling the number allocated each time. Note that the f-string
        f'{0}a{1}' contains 3 expr_ty's: 2 FormattedValue's, and one
        Constant for the literal 'a'. So you add expr_ty's about twice as
        fast as you add expressions in an f-string. */

     Py_ssize_t allocated;  /* Number we've allocated. */
     Py_ssize_t size;       /* Number we've used. */
     expr_ty    *p;         /* Pointer to the memory we're actually
                               using. Will point to 'data' until we
                               start dynamically allocating. */
     expr_ty    data[EXPRLIST_N_CACHED];
 } ExprList;

 /* The FstringParser is designed to add a mix of strings and
    f-strings, and concat them together as needed. Ultimately, it
    generates an expr_ty. */
 typedef struct {
     PyObject *last_str;
     ExprList expr_list;
     int fmode;
 } FstringParser;

 void _PyPegen_FstringParser_Init(FstringParser *);
 int _PyPegen_parsestr(Parser *, int *, int *, PyObject **,
                       const char **, Py_ssize_t *, Token *);
 int _PyPegen_FstringParser_ConcatFstring(Parser *, FstringParser *, const char **,
                                 const char *, int, int, Token *, Token *,
                                 Token *);
 int _PyPegen_FstringParser_ConcatAndDel(FstringParser *, PyObject *);
 expr_ty _PyPegen_FstringParser_Finish(Parser *, FstringParser *, Token *, Token *);
 void _PyPegen_FstringParser_Dealloc(FstringParser *);

 #endif
	#ifndef STRINGS_H
	#define STRINGS_H

	#include <Python.h>
	#include <pycore_ast.h>
	#include "pegen.h"

	#define EXPRLIST_N_CACHED 64

	typedef struct {
	/* Incrementally build an array of expr_ty, so be used in an
	asdl_seq. Cache some small but reasonably sized number of
	expr_ty's, and then after that start dynamically allocating,
	doubling the number allocated each time. Note that the f-string
	f'{0}a{1}' contains 3 expr_ty's: 2 FormattedValue's, and one
	Constant for the literal 'a'. So you add expr_ty's about twice as
	fast as you add expressions in an f-string. */

	Py_ssize_t allocated; /* Number we've allocated. */
	Py_ssize_t size; /* Number we've used. */
	expr_ty p; / Pointer to the memory we're actually
	using. Will point to 'data' until we
	start dynamically allocating. */
	expr_ty data[EXPRLIST_N_CACHED];
	} ExprList;

	/* The FstringParser is designed to add a mix of strings and
	f-strings, and concat them together as needed. Ultimately, it
	generates an expr_ty. */
	typedef struct {
	PyObject *last_str;
	ExprList expr_list;
	int fmode;
	} FstringParser;

	void _PyPegen_FstringParser_Init(FstringParser *);
	int _PyPegen_parsestr(Parser , int , int , PyObject *,
	const char *, Py_ssize_t , Token *);
	int _PyPegen_FstringParser_ConcatFstring(Parser , FstringParser , const char **,
	const char , int, int, Token , Token *,
	Token *);
	int _PyPegen_FstringParser_ConcatAndDel(FstringParser , PyObject );
	expr_ty _PyPegen_FstringParser_Finish(Parser , FstringParser , Token , Token );
	void _PyPegen_FstringParser_Dealloc(FstringParser *);

	#endif