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/*
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* This file is part of the MicroPython project , http : //micropython.org/
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*
* The MIT License ( MIT )
*
* Copyright ( c ) 2013 , 2014 Damien P . George
*
* Permission is hereby granted , free of charge , to any person obtaining a copy
* of this software and associated documentation files ( the " Software " ) , to deal
* in the Software without restriction , including without limitation the rights
* to use , copy , modify , merge , publish , distribute , sublicense , and / or sell
* copies of the Software , and to permit persons to whom the Software is
* furnished to do so , subject to the following conditions :
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software .
*
* THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND , EXPRESS OR
* IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY ,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT . IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER
* LIABILITY , WHETHER IN AN ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING FROM ,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE .
*/
all: Unify header guard usage.
The code conventions suggest using header guards, but do not define how
those should look like and instead point to existing files. However, not
all existing files follow the same scheme, sometimes omitting header guards
altogether, sometimes using non-standard names, making it easy to
accidentally pick a "wrong" example.
This commit ensures that all header files of the MicroPython project (that
were not simply copied from somewhere else) follow the same pattern, that
was already present in the majority of files, especially in the py folder.
The rules are as follows.
Naming convention:
* start with the words MICROPY_INCLUDED
* contain the full path to the file
* replace special characters with _
In addition, there are no empty lines before #ifndef, between #ifndef and
one empty line before #endif. #endif is followed by a comment containing
the name of the guard macro.
py/grammar.h cannot use header guards by design, since it has to be
included multiple times in a single C file. Several other files also do not
need header guards as they are only used internally and guaranteed to be
included only once:
* MICROPY_MPHALPORT_H
* mpconfigboard.h
* mpconfigport.h
* mpthreadport.h
* pin_defs_*.h
* qstrdefs*.h
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# ifndef MICROPY_INCLUDED_PY_OBJ_H
# define MICROPY_INCLUDED_PY_OBJ_H
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# include <assert.h>
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# include "py/mpconfig.h"
# include "py/misc.h"
# include "py/qstr.h"
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# include "py/mpprint.h"
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# include "py/runtime0.h"
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// This is the definition of the opaque MicroPython object type.
// All concrete objects have an encoding within this type and the
// particular encoding is specified by MICROPY_OBJ_REPR.
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# if MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_D
typedef uint64_t mp_obj_t ;
typedef uint64_t mp_const_obj_t ;
# else
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typedef void * mp_obj_t ;
typedef const void * mp_const_obj_t ;
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# endif
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// This mp_obj_type_t struct is a concrete MicroPython object which holds info
// about a type. See below for actual definition of the struct.
typedef struct _mp_obj_type_t mp_obj_type_t ;
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// Anything that wants to be a concrete MicroPython object must have mp_obj_base_t
// as its first member (small ints, qstr objs and inline floats are not concrete).
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struct _mp_obj_base_t {
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const mp_obj_type_t * type MICROPY_OBJ_BASE_ALIGNMENT ;
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} ;
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typedef struct _mp_obj_base_t mp_obj_base_t ;
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// These fake objects are used to indicate certain things in arguments or return
// values, and should only be used when explicitly allowed.
//
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// - MP_OBJ_NULL : used to indicate the absence of an object, or unsupported operation.
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// - MP_OBJ_STOP_ITERATION : used instead of throwing a StopIteration, for efficiency.
// - MP_OBJ_SENTINEL : used for various internal purposes where one needs
// an object which is unique from all other objects, including MP_OBJ_NULL.
//
// For debugging purposes they are all different. For non-debug mode, we alias
// as many as we can to MP_OBJ_NULL because it's cheaper to load/compare 0.
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# if MICROPY_DEBUG_MP_OBJ_SENTINELS
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# define MP_OBJ_NULL (MP_OBJ_FROM_PTR((void *)0))
# define MP_OBJ_STOP_ITERATION (MP_OBJ_FROM_PTR((void *)4))
# define MP_OBJ_SENTINEL (MP_OBJ_FROM_PTR((void *)8))
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# else
# define MP_OBJ_NULL (MP_OBJ_FROM_PTR((void *)0))
# define MP_OBJ_STOP_ITERATION (MP_OBJ_FROM_PTR((void *)0))
# define MP_OBJ_SENTINEL (MP_OBJ_FROM_PTR((void *)4))
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# endif
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// These macros/inline functions operate on objects and depend on the
// particular object representation. They are used to query, pack and
// unpack small ints, qstrs and full object pointers.
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# if MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_A
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static inline bool mp_obj_is_small_int ( mp_const_obj_t o ) {
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return ( ( ( mp_int_t ) ( o ) ) & 1 ) ! = 0 ;
}
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# define MP_OBJ_SMALL_INT_VALUE(o) (((mp_int_t)(o)) >> 1)
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# define MP_OBJ_NEW_SMALL_INT(small_int) ((mp_obj_t)((((mp_uint_t)(small_int)) << 1) | 1))
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static inline bool mp_obj_is_qstr ( mp_const_obj_t o ) {
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return ( ( ( mp_int_t ) ( o ) ) & 7 ) = = 2 ;
}
# define MP_OBJ_QSTR_VALUE(o) (((mp_uint_t)(o)) >> 3)
# define MP_OBJ_NEW_QSTR(qst) ((mp_obj_t)((((mp_uint_t)(qst)) << 3) | 2))
static inline bool mp_obj_is_immediate_obj ( mp_const_obj_t o ) {
return ( ( ( mp_int_t ) ( o ) ) & 7 ) = = 6 ;
}
# define MP_OBJ_IMMEDIATE_OBJ_VALUE(o) (((mp_uint_t)(o)) >> 3)
# define MP_OBJ_NEW_IMMEDIATE_OBJ(val) ((mp_obj_t)(((val) << 3) | 6))
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# if MICROPY_PY_BUILTINS_FLOAT
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# define mp_const_float_e MP_ROM_PTR(&mp_const_float_e_obj)
# define mp_const_float_pi MP_ROM_PTR(&mp_const_float_pi_obj)
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# if MICROPY_PY_MATH_CONSTANTS
# define mp_const_float_tau MP_ROM_PTR(&mp_const_float_tau_obj)
# define mp_const_float_inf MP_ROM_PTR(&mp_const_float_inf_obj)
# define mp_const_float_nan MP_ROM_PTR(&mp_const_float_nan_obj)
# endif
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extern const struct _mp_obj_float_t mp_const_float_e_obj ;
extern const struct _mp_obj_float_t mp_const_float_pi_obj ;
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# if MICROPY_PY_MATH_CONSTANTS
extern const struct _mp_obj_float_t mp_const_float_tau_obj ;
extern const struct _mp_obj_float_t mp_const_float_inf_obj ;
extern const struct _mp_obj_float_t mp_const_float_nan_obj ;
# endif
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# define mp_obj_is_float(o) mp_obj_is_type((o), &mp_type_float)
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mp_float_t mp_obj_float_get ( mp_obj_t self_in ) ;
mp_obj_t mp_obj_new_float ( mp_float_t value ) ;
# endif
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static inline bool mp_obj_is_obj ( mp_const_obj_t o ) {
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return ( ( ( mp_int_t ) ( o ) ) & 3 ) = = 0 ;
}
# elif MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_B
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static inline bool mp_obj_is_small_int ( mp_const_obj_t o ) {
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return ( ( ( mp_int_t ) ( o ) ) & 3 ) = = 1 ;
}
# define MP_OBJ_SMALL_INT_VALUE(o) (((mp_int_t)(o)) >> 2)
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# define MP_OBJ_NEW_SMALL_INT(small_int) ((mp_obj_t)((((mp_uint_t)(small_int)) << 2) | 1))
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static inline bool mp_obj_is_qstr ( mp_const_obj_t o ) {
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return ( ( ( mp_int_t ) ( o ) ) & 7 ) = = 3 ;
}
# define MP_OBJ_QSTR_VALUE(o) (((mp_uint_t)(o)) >> 3)
# define MP_OBJ_NEW_QSTR(qst) ((mp_obj_t)((((mp_uint_t)(qst)) << 3) | 3))
static inline bool mp_obj_is_immediate_obj ( mp_const_obj_t o ) {
return ( ( ( mp_int_t ) ( o ) ) & 7 ) = = 7 ;
}
# define MP_OBJ_IMMEDIATE_OBJ_VALUE(o) (((mp_uint_t)(o)) >> 3)
# define MP_OBJ_NEW_IMMEDIATE_OBJ(val) ((mp_obj_t)(((val) << 3) | 7))
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# if MICROPY_PY_BUILTINS_FLOAT
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# define mp_const_float_e MP_ROM_PTR(&mp_const_float_e_obj)
# define mp_const_float_pi MP_ROM_PTR(&mp_const_float_pi_obj)
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# if MICROPY_PY_MATH_CONSTANTS
# define mp_const_float_tau MP_ROM_PTR(&mp_const_float_tau_obj)
# define mp_const_float_inf MP_ROM_PTR(&mp_const_float_inf_obj)
# define mp_const_float_nan MP_ROM_PTR(&mp_const_float_nan_obj)
# endif
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extern const struct _mp_obj_float_t mp_const_float_e_obj ;
extern const struct _mp_obj_float_t mp_const_float_pi_obj ;
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# if MICROPY_PY_MATH_CONSTANTS
extern const struct _mp_obj_float_t mp_const_float_tau_obj ;
extern const struct _mp_obj_float_t mp_const_float_inf_obj ;
extern const struct _mp_obj_float_t mp_const_float_nan_obj ;
# endif
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# define mp_obj_is_float(o) mp_obj_is_type((o), &mp_type_float)
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mp_float_t mp_obj_float_get ( mp_obj_t self_in ) ;
mp_obj_t mp_obj_new_float ( mp_float_t value ) ;
# endif
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static inline bool mp_obj_is_obj ( mp_const_obj_t o ) {
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return ( ( ( mp_int_t ) ( o ) ) & 1 ) = = 0 ;
}
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# elif MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_C
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static inline bool mp_obj_is_small_int ( mp_const_obj_t o ) {
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return ( ( ( mp_int_t ) ( o ) ) & 1 ) ! = 0 ;
}
# define MP_OBJ_SMALL_INT_VALUE(o) (((mp_int_t)(o)) >> 1)
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# define MP_OBJ_NEW_SMALL_INT(small_int) ((mp_obj_t)((((mp_uint_t)(small_int)) << 1) | 1))
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# if MICROPY_PY_BUILTINS_FLOAT
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# define mp_const_float_e MP_ROM_PTR((mp_obj_t)(((0x402df854 & ~3) | 2) + 0x80800000))
# define mp_const_float_pi MP_ROM_PTR((mp_obj_t)(((0x40490fdb & ~3) | 2) + 0x80800000))
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# if MICROPY_PY_MATH_CONSTANTS
# define mp_const_float_tau MP_ROM_PTR((mp_obj_t)(((0x40c90fdb & ~3) | 2) + 0x80800000))
# define mp_const_float_inf MP_ROM_PTR((mp_obj_t)(((0x7f800000 & ~3) | 2) + 0x80800000))
# define mp_const_float_nan MP_ROM_PTR((mp_obj_t)(((0xffc00000 & ~3) | 2) + 0x80800000))
# endif
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static inline bool mp_obj_is_float ( mp_const_obj_t o ) {
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return ( ( ( mp_uint_t ) ( o ) ) & 3 ) = = 2 & & ( ( ( mp_uint_t ) ( o ) ) & 0xff800007 ) ! = 0x00000006 ;
}
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static inline mp_float_t mp_obj_float_get ( mp_const_obj_t o ) {
union {
mp_float_t f ;
mp_uint_t u ;
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} num = { . u = ( ( mp_uint_t ) o - 0x80800000 ) & ~ 3 } ;
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return num . f ;
}
static inline mp_obj_t mp_obj_new_float ( mp_float_t f ) {
union {
mp_float_t f ;
mp_uint_t u ;
} num = { . f = f } ;
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return ( mp_obj_t ) ( ( ( num . u & ~ 0x3 ) | 2 ) + 0x80800000 ) ;
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}
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# endif
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static inline bool mp_obj_is_qstr ( mp_const_obj_t o ) {
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return ( ( ( mp_uint_t ) ( o ) ) & 0xff80000f ) = = 0x00000006 ;
}
# define MP_OBJ_QSTR_VALUE(o) (((mp_uint_t)(o)) >> 4)
# define MP_OBJ_NEW_QSTR(qst) ((mp_obj_t)((((mp_uint_t)(qst)) << 4) | 0x00000006))
static inline bool mp_obj_is_immediate_obj ( mp_const_obj_t o ) {
return ( ( ( mp_uint_t ) ( o ) ) & 0xff80000f ) = = 0x0000000e ;
}
# define MP_OBJ_IMMEDIATE_OBJ_VALUE(o) (((mp_uint_t)(o)) >> 4)
# define MP_OBJ_NEW_IMMEDIATE_OBJ(val) ((mp_obj_t)(((val) << 4) | 0xe))
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static inline bool mp_obj_is_obj ( mp_const_obj_t o ) {
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return ( ( ( mp_int_t ) ( o ) ) & 3 ) = = 0 ;
}
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# elif MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_D
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static inline bool mp_obj_is_small_int ( mp_const_obj_t o ) {
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return ( ( ( uint64_t ) ( o ) ) & 0xffff000000000000 ) = = 0x0001000000000000 ;
}
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# define MP_OBJ_SMALL_INT_VALUE(o) (((mp_int_t)((o) << 16)) >> 17)
# define MP_OBJ_NEW_SMALL_INT(small_int) (((((uint64_t)(small_int)) & 0x7fffffffffff) << 1) | 0x0001000000000001)
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static inline bool mp_obj_is_qstr ( mp_const_obj_t o ) {
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return ( ( ( uint64_t ) ( o ) ) & 0xffff000000000000 ) = = 0x0002000000000000 ;
}
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# define MP_OBJ_QSTR_VALUE(o) ((((uint32_t)(o)) >> 1) & 0xffffffff)
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# define MP_OBJ_NEW_QSTR(qst) ((mp_obj_t)(((uint64_t)(((uint32_t)(qst)) << 1)) | 0x0002000000000001))
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static inline bool mp_obj_is_immediate_obj ( mp_const_obj_t o ) {
return ( ( ( uint64_t ) ( o ) ) & 0xffff000000000000 ) = = 0x0003000000000000 ;
}
# define MP_OBJ_IMMEDIATE_OBJ_VALUE(o) ((((uint32_t)(o)) >> 46) & 3)
# define MP_OBJ_NEW_IMMEDIATE_OBJ(val) (((uint64_t)(val) << 46) | 0x0003000000000000)
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# if MICROPY_PY_BUILTINS_FLOAT
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# if MICROPY_FLOAT_IMPL != MICROPY_FLOAT_IMPL_DOUBLE
# error MICROPY_OBJ_REPR_D requires MICROPY_FLOAT_IMPL_DOUBLE
# endif
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# define mp_const_float_e {((mp_obj_t)((uint64_t)0x4005bf0a8b145769 + 0x8004000000000000))}
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# define mp_const_float_pi {((mp_obj_t)((uint64_t)0x400921fb54442d18 + 0x8004000000000000))}
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# if MICROPY_PY_MATH_CONSTANTS
# define mp_const_float_tau {((mp_obj_t)((uint64_t)0x401921fb54442d18 + 0x8004000000000000))}
# define mp_const_float_inf {((mp_obj_t)((uint64_t)0x7ff0000000000000 + 0x8004000000000000))}
# define mp_const_float_nan {((mp_obj_t)((uint64_t)0xfff8000000000000 + 0x8004000000000000))}
# endif
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static inline bool mp_obj_is_float ( mp_const_obj_t o ) {
return ( ( uint64_t ) ( o ) & 0xfffc000000000000 ) ! = 0 ;
}
static inline mp_float_t mp_obj_float_get ( mp_const_obj_t o ) {
union {
mp_float_t f ;
uint64_t r ;
} num = { . r = o - 0x8004000000000000 } ;
return num . f ;
}
static inline mp_obj_t mp_obj_new_float ( mp_float_t f ) {
union {
mp_float_t f ;
uint64_t r ;
} num = { . f = f } ;
return num . r + 0x8004000000000000 ;
}
# endif
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static inline bool mp_obj_is_obj ( mp_const_obj_t o ) {
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return ( ( ( uint64_t ) ( o ) ) & 0xffff000000000000 ) = = 0x0000000000000000 ;
}
# define MP_OBJ_TO_PTR(o) ((void *)(uintptr_t)(o))
# define MP_OBJ_FROM_PTR(p) ((mp_obj_t)((uintptr_t)(p)))
// rom object storage needs special handling to widen 32-bit pointer to 64-bits
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typedef union _mp_rom_obj_t {
uint64_t u64 ;
struct {
const void * lo , * hi ;
} u32 ;
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} mp_rom_obj_t ;
# define MP_ROM_INT(i) {MP_OBJ_NEW_SMALL_INT(i)}
# define MP_ROM_QSTR(q) {MP_OBJ_NEW_QSTR(q)}
# if MP_ENDIANNESS_LITTLE
# define MP_ROM_PTR(p) {.u32 = {.lo = (p), .hi = NULL}}
# else
# define MP_ROM_PTR(p) {.u32 = {.lo = NULL, .hi = (p)}}
# endif
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# endif
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// Macros to convert between mp_obj_t and concrete object types.
// These are identity operations in MicroPython, but ability to override
// these operations are provided to experiment with other methods of
// object representation and memory management.
// Cast mp_obj_t to object pointer
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# ifndef MP_OBJ_TO_PTR
# define MP_OBJ_TO_PTR(o) ((void *)o)
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# endif
// Cast object pointer to mp_obj_t
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# ifndef MP_OBJ_FROM_PTR
# define MP_OBJ_FROM_PTR(p) ((mp_obj_t)p)
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# endif
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// Macros to create objects that are stored in ROM.
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# ifndef MP_ROM_NONE
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# if MICROPY_OBJ_IMMEDIATE_OBJS
# define MP_ROM_NONE mp_const_none
# else
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# define MP_ROM_NONE MP_ROM_PTR(&mp_const_none_obj)
# endif
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# endif
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# ifndef MP_ROM_FALSE
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# if MICROPY_OBJ_IMMEDIATE_OBJS
# define MP_ROM_FALSE mp_const_false
# define MP_ROM_TRUE mp_const_true
# else
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# define MP_ROM_FALSE MP_ROM_PTR(&mp_const_false_obj)
# define MP_ROM_TRUE MP_ROM_PTR(&mp_const_true_obj)
# endif
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# endif
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# ifndef MP_ROM_INT
typedef mp_const_obj_t mp_rom_obj_t ;
# define MP_ROM_INT(i) MP_OBJ_NEW_SMALL_INT(i)
# define MP_ROM_QSTR(q) MP_OBJ_NEW_QSTR(q)
# define MP_ROM_PTR(p) (p)
/* for testing
typedef struct _mp_rom_obj_t { mp_const_obj_t o ; } mp_rom_obj_t ;
# define MP_ROM_INT(i) {MP_OBJ_NEW_SMALL_INT(i)}
# define MP_ROM_QSTR(q) {MP_OBJ_NEW_QSTR(q)}
# define MP_ROM_PTR(p) {.o = p}
*/
# endif
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// These macros are used to declare and define constant function objects
// You can put "static" in front of the definitions to make them local
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# define MP_DECLARE_CONST_FUN_OBJ_0(obj_name) extern const mp_obj_fun_builtin_fixed_t obj_name
# define MP_DECLARE_CONST_FUN_OBJ_1(obj_name) extern const mp_obj_fun_builtin_fixed_t obj_name
# define MP_DECLARE_CONST_FUN_OBJ_2(obj_name) extern const mp_obj_fun_builtin_fixed_t obj_name
# define MP_DECLARE_CONST_FUN_OBJ_3(obj_name) extern const mp_obj_fun_builtin_fixed_t obj_name
# define MP_DECLARE_CONST_FUN_OBJ_VAR(obj_name) extern const mp_obj_fun_builtin_var_t obj_name
# define MP_DECLARE_CONST_FUN_OBJ_VAR_BETWEEN(obj_name) extern const mp_obj_fun_builtin_var_t obj_name
# define MP_DECLARE_CONST_FUN_OBJ_KW(obj_name) extern const mp_obj_fun_builtin_var_t obj_name
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# define MP_OBJ_FUN_ARGS_MAX (0xffff) // to set maximum value in n_args_max below
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# define MP_OBJ_FUN_MAKE_SIG(n_args_min, n_args_max, takes_kw) ((uint32_t)((((uint32_t)(n_args_min)) << 17) | (((uint32_t)(n_args_max)) << 1) | ((takes_kw) ? 1 : 0)))
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# define MP_DEFINE_CONST_FUN_OBJ_0(obj_name, fun_name) \
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const mp_obj_fun_builtin_fixed_t obj_name = \
{ { & mp_type_fun_builtin_0 } , . fun . _0 = fun_name }
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# define MP_DEFINE_CONST_FUN_OBJ_1(obj_name, fun_name) \
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const mp_obj_fun_builtin_fixed_t obj_name = \
{ { & mp_type_fun_builtin_1 } , . fun . _1 = fun_name }
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# define MP_DEFINE_CONST_FUN_OBJ_2(obj_name, fun_name) \
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const mp_obj_fun_builtin_fixed_t obj_name = \
{ { & mp_type_fun_builtin_2 } , . fun . _2 = fun_name }
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# define MP_DEFINE_CONST_FUN_OBJ_3(obj_name, fun_name) \
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const mp_obj_fun_builtin_fixed_t obj_name = \
{ { & mp_type_fun_builtin_3 } , . fun . _3 = fun_name }
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# define MP_DEFINE_CONST_FUN_OBJ_VAR(obj_name, n_args_min, fun_name) \
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const mp_obj_fun_builtin_var_t obj_name = \
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{ { & mp_type_fun_builtin_var } , MP_OBJ_FUN_MAKE_SIG ( n_args_min , MP_OBJ_FUN_ARGS_MAX , false ) , . fun . var = fun_name }
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# define MP_DEFINE_CONST_FUN_OBJ_VAR_BETWEEN(obj_name, n_args_min, n_args_max, fun_name) \
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const mp_obj_fun_builtin_var_t obj_name = \
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{ { & mp_type_fun_builtin_var } , MP_OBJ_FUN_MAKE_SIG ( n_args_min , n_args_max , false ) , . fun . var = fun_name }
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# define MP_DEFINE_CONST_FUN_OBJ_KW(obj_name, n_args_min, fun_name) \
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const mp_obj_fun_builtin_var_t obj_name = \
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{ { & mp_type_fun_builtin_var } , MP_OBJ_FUN_MAKE_SIG ( n_args_min , MP_OBJ_FUN_ARGS_MAX , true ) , . fun . kw = fun_name }
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// These macros are used to define constant map/dict objects
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// You can put "static" in front of the definition to make it local
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# define MP_DEFINE_CONST_MAP(map_name, table_name) \
const mp_map_t map_name = { \
. all_keys_are_qstrs = 1 , \
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. is_fixed = 1 , \
. is_ordered = 1 , \
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. used = MP_ARRAY_SIZE ( table_name ) , \
. alloc = MP_ARRAY_SIZE ( table_name ) , \
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. table = ( mp_map_elem_t * ) ( mp_rom_map_elem_t * ) table_name , \
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}
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# define MP_DEFINE_CONST_DICT_WITH_SIZE(dict_name, table_name, n) \
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const mp_obj_dict_t dict_name = { \
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. base = { & mp_type_dict } , \
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. map = { \
. all_keys_are_qstrs = 1 , \
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. is_fixed = 1 , \
. is_ordered = 1 , \
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. used = n , \
. alloc = n , \
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. table = ( mp_map_elem_t * ) ( mp_rom_map_elem_t * ) table_name , \
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} , \
}
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# define MP_DEFINE_CONST_DICT(dict_name, table_name) MP_DEFINE_CONST_DICT_WITH_SIZE(dict_name, table_name, MP_ARRAY_SIZE(table_name))
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// These macros are used to declare and define constant staticmethond and classmethod objects
// You can put "static" in front of the definitions to make them local
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# define MP_DECLARE_CONST_STATICMETHOD_OBJ(obj_name) extern const mp_rom_obj_static_class_method_t obj_name
# define MP_DECLARE_CONST_CLASSMETHOD_OBJ(obj_name) extern const mp_rom_obj_static_class_method_t obj_name
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# define MP_DEFINE_CONST_STATICMETHOD_OBJ(obj_name, fun_name) const mp_rom_obj_static_class_method_t obj_name = {{&mp_type_staticmethod}, fun_name}
# define MP_DEFINE_CONST_CLASSMETHOD_OBJ(obj_name, fun_name) const mp_rom_obj_static_class_method_t obj_name = {{&mp_type_classmethod}, fun_name}
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# ifndef NO_QSTR
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// Declare a module as a builtin, processed by makemoduledefs.py
// param module_name: MP_QSTR_<module name>
// param obj_module: mp_obj_module_t instance
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# define MP_REGISTER_MODULE(module_name, obj_module)
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// Declare a root pointer (to avoid garbage collection of a global static variable).
// param variable_declaration: a valid C variable declaration
# define MP_REGISTER_ROOT_POINTER(variable_declaration)
# endif // NO_QSTR
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// Underlying map/hash table implementation (not dict object or map function)
typedef struct _mp_map_elem_t {
mp_obj_t key ;
mp_obj_t value ;
} mp_map_elem_t ;
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typedef struct _mp_rom_map_elem_t {
mp_rom_obj_t key ;
mp_rom_obj_t value ;
} mp_rom_map_elem_t ;
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typedef struct _mp_map_t {
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size_t all_keys_are_qstrs : 1 ;
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size_t is_fixed : 1 ; // if set, table is fixed/read-only and can't be modified
size_t is_ordered : 1 ; // if set, table is an ordered array, not a hash map
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size_t used : ( 8 * sizeof ( size_t ) - 3 ) ;
size_t alloc ;
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mp_map_elem_t * table ;
} mp_map_t ;
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// mp_set_lookup requires these constants to have the values they do
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typedef enum _mp_map_lookup_kind_t {
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MP_MAP_LOOKUP = 0 ,
MP_MAP_LOOKUP_ADD_IF_NOT_FOUND = 1 ,
MP_MAP_LOOKUP_REMOVE_IF_FOUND = 2 ,
MP_MAP_LOOKUP_ADD_IF_NOT_FOUND_OR_REMOVE_IF_FOUND = 3 , // only valid for mp_set_lookup
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} mp_map_lookup_kind_t ;
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static inline bool mp_map_slot_is_filled ( const mp_map_t * map , size_t pos ) {
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assert ( pos < map - > alloc ) ;
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return ( map ) - > table [ pos ] . key ! = MP_OBJ_NULL & & ( map ) - > table [ pos ] . key ! = MP_OBJ_SENTINEL ;
}
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void mp_map_init ( mp_map_t * map , size_t n ) ;
void mp_map_init_fixed_table ( mp_map_t * map , size_t n , const mp_obj_t * table ) ;
mp_map_t * mp_map_new ( size_t n ) ;
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void mp_map_deinit ( mp_map_t * map ) ;
void mp_map_free ( mp_map_t * map ) ;
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mp_map_elem_t * mp_map_lookup ( mp_map_t * map , mp_obj_t index , mp_map_lookup_kind_t lookup_kind ) ;
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void mp_map_clear ( mp_map_t * map ) ;
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void mp_map_dump ( mp_map_t * map ) ;
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// Underlying set implementation (not set object)
typedef struct _mp_set_t {
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size_t alloc ;
size_t used ;
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mp_obj_t * table ;
} mp_set_t ;
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static inline bool mp_set_slot_is_filled ( const mp_set_t * set , size_t pos ) {
return ( set ) - > table [ pos ] ! = MP_OBJ_NULL & & ( set ) - > table [ pos ] ! = MP_OBJ_SENTINEL ;
}
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void mp_set_init ( mp_set_t * set , size_t n ) ;
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mp_obj_t mp_set_lookup ( mp_set_t * set , mp_obj_t index , mp_map_lookup_kind_t lookup_kind ) ;
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mp_obj_t mp_set_remove_first ( mp_set_t * set ) ;
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void mp_set_clear ( mp_set_t * set ) ;
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// Type definitions for methods
typedef mp_obj_t ( * mp_fun_0_t ) ( void ) ;
typedef mp_obj_t ( * mp_fun_1_t ) ( mp_obj_t ) ;
typedef mp_obj_t ( * mp_fun_2_t ) ( mp_obj_t , mp_obj_t ) ;
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typedef mp_obj_t ( * mp_fun_3_t ) ( mp_obj_t , mp_obj_t , mp_obj_t ) ;
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typedef mp_obj_t ( * mp_fun_var_t ) ( size_t n , const mp_obj_t * ) ;
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// mp_fun_kw_t takes mp_map_t* (and not const mp_map_t*) to ease passing
// this arg to mp_map_lookup().
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typedef mp_obj_t ( * mp_fun_kw_t ) ( size_t n , const mp_obj_t * , mp_map_t * ) ;
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// Flags for type behaviour (mp_obj_type_t.flags)
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// If MP_TYPE_FLAG_EQ_NOT_REFLEXIVE is clear then __eq__ is reflexive (A==A returns True).
// If MP_TYPE_FLAG_EQ_CHECKS_OTHER_TYPE is clear then the type can't be equal to an
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// instance of any different class that also clears this flag. If this flag is set
// then the type may check for equality against a different type.
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// If MP_TYPE_FLAG_EQ_HAS_NEQ_TEST is clear then the type only implements the __eq__
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// operator and not the __ne__ operator. If it's set then __ne__ may be implemented.
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// If MP_TYPE_FLAG_BINDS_SELF is set then the type as a method binds self as the first arg.
// If MP_TYPE_FLAG_BUILTIN_FUN is set then the type is a built-in function type.
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// MP_TYPE_FLAG_ITER_IS_GETITER is a no-op flag that means the default behaviour for the
// iter slot and it's the getiter function.
// If MP_TYPE_FLAG_ITER_IS_ITERNEXT is set then the "iter" slot is the iternext
// function and getiter will be automatically implemented as "return self".
// If MP_TYPE_FLAG_ITER_IS_CUSTOM is set then the "iter" slot is a pointer to a
// mp_getiter_iternext_custom_t struct instance (with both .getiter and .iternext set).
// If MP_TYPE_FLAG_ITER_IS_STREAM is set then the type implicitly gets a "return self"
// getiter, and mp_stream_unbuffered_iter for iternext.
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# define MP_TYPE_FLAG_NONE (0x0000)
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# define MP_TYPE_FLAG_IS_SUBCLASSED (0x0001)
# define MP_TYPE_FLAG_HAS_SPECIAL_ACCESSORS (0x0002)
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# define MP_TYPE_FLAG_EQ_NOT_REFLEXIVE (0x0004)
# define MP_TYPE_FLAG_EQ_CHECKS_OTHER_TYPE (0x0008)
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# define MP_TYPE_FLAG_EQ_HAS_NEQ_TEST (0x0010)
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# define MP_TYPE_FLAG_BINDS_SELF (0x0020)
# define MP_TYPE_FLAG_BUILTIN_FUN (0x0040)
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# define MP_TYPE_FLAG_ITER_IS_GETITER (0x0000)
# define MP_TYPE_FLAG_ITER_IS_ITERNEXT (0x0080)
# define MP_TYPE_FLAG_ITER_IS_CUSTOM (0x0100)
# define MP_TYPE_FLAG_ITER_IS_STREAM (MP_TYPE_FLAG_ITER_IS_ITERNEXT | MP_TYPE_FLAG_ITER_IS_CUSTOM)
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typedef enum {
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PRINT_STR = 0 ,
PRINT_REPR = 1 ,
PRINT_EXC = 2 , // Special format for printing exception in unhandled exception message
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PRINT_JSON = 3 ,
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PRINT_RAW = 4 , // Special format for printing bytes as an undercorated string
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PRINT_EXC_SUBCLASS = 0x80 , // Internal flag for printing exception subclasses
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} mp_print_kind_t ;
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typedef struct _mp_obj_iter_buf_t {
mp_obj_base_t base ;
mp_obj_t buf [ 3 ] ;
} mp_obj_iter_buf_t ;
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// The number of slots that an mp_obj_iter_buf_t needs on the Python value stack.
// It's rounded up in case mp_obj_base_t is smaller than mp_obj_t (eg for OBJ_REPR_D).
# define MP_OBJ_ITER_BUF_NSLOTS ((sizeof(mp_obj_iter_buf_t) + sizeof(mp_obj_t) - 1) / sizeof(mp_obj_t))
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typedef void ( * mp_print_fun_t ) ( const mp_print_t * print , mp_obj_t o , mp_print_kind_t kind ) ;
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typedef mp_obj_t ( * mp_make_new_fun_t ) ( const mp_obj_type_t * type , size_t n_args , size_t n_kw , const mp_obj_t * args ) ;
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typedef mp_obj_t ( * mp_call_fun_t ) ( mp_obj_t fun , size_t n_args , size_t n_kw , const mp_obj_t * args ) ;
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typedef mp_obj_t ( * mp_unary_op_fun_t ) ( mp_unary_op_t op , mp_obj_t ) ;
typedef mp_obj_t ( * mp_binary_op_fun_t ) ( mp_binary_op_t op , mp_obj_t , mp_obj_t ) ;
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typedef void ( * mp_attr_fun_t ) ( mp_obj_t self_in , qstr attr , mp_obj_t * dest ) ;
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typedef mp_obj_t ( * mp_subscr_fun_t ) ( mp_obj_t self_in , mp_obj_t index , mp_obj_t value ) ;
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typedef mp_obj_t ( * mp_getiter_fun_t ) ( mp_obj_t self_in , mp_obj_iter_buf_t * iter_buf ) ;
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typedef mp_fun_1_t mp_iternext_fun_t ;
// For MP_TYPE_FLAG_ITER_IS_CUSTOM, the "getiter" slot points to an instance of this type.
typedef struct _mp_getiter_iternext_custom_t {
mp_getiter_fun_t getiter ;
mp_iternext_fun_t iternext ;
} mp_getiter_iternext_custom_t ;
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// Buffer protocol
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typedef struct _mp_buffer_info_t {
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void * buf ; // can be NULL if len == 0
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size_t len ; // in bytes
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int typecode ; // as per binary.h
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} mp_buffer_info_t ;
# define MP_BUFFER_READ (1)
# define MP_BUFFER_WRITE (2)
# define MP_BUFFER_RW (MP_BUFFER_READ | MP_BUFFER_WRITE)
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typedef mp_int_t ( * mp_buffer_fun_t ) ( mp_obj_t obj , mp_buffer_info_t * bufinfo , mp_uint_t flags ) ;
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bool mp_get_buffer ( mp_obj_t obj , mp_buffer_info_t * bufinfo , mp_uint_t flags ) ;
void mp_get_buffer_raise ( mp_obj_t obj , mp_buffer_info_t * bufinfo , mp_uint_t flags ) ;
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// This struct will be updated to become a variable sized struct. In order to
// use this as a member, or allocate dynamically, use the mp_obj_empty_type_t
// or mp_obj_full_type_t structs below (which must be kept in sync).
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struct _mp_obj_type_t {
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// A type is an object so must start with this entry, which points to mp_type_type.
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mp_obj_base_t base ;
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// Flags associated with this type.
uint16_t flags ;
// The name of this type, a qstr.
uint16_t name ;
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// Slots: For the rest of the fields, the slot index points to the
// relevant function in the variable-length "slots" field. Ideally these
// would be only 4 bits, but the extra overhead of accessing them adds
// more code, and we also need to be able to take the address of them for
// mp_obj_class_lookup.
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// Corresponds to __new__ and __init__ special methods, to make an instance of the type.
uint8_t slot_index_make_new ;
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// Corresponds to __repr__ and __str__ special methods.
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uint8_t slot_index_print ;
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// Corresponds to __call__ special method, ie T(...).
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uint8_t slot_index_call ;
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// Implements unary and binary operations.
// Can return MP_OBJ_NULL if the operation is not supported.
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uint8_t slot_index_unary_op ;
uint8_t slot_index_binary_op ;
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// Implements load, store and delete attribute.
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//
// dest[0] = MP_OBJ_NULL means load
// return: for fail, do nothing
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// for fail but continue lookup in locals_dict, dest[1] = MP_OBJ_SENTINEL
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// for attr, dest[0] = value
// for method, dest[0] = method, dest[1] = self
//
// dest[0,1] = {MP_OBJ_SENTINEL, MP_OBJ_NULL} means delete
// dest[0,1] = {MP_OBJ_SENTINEL, object} means store
// return: for fail, do nothing
// for success set dest[0] = MP_OBJ_NULL
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uint8_t slot_index_attr ;
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// Implements load, store and delete subscripting:
// - value = MP_OBJ_SENTINEL means load
// - value = MP_OBJ_NULL means delete
// - all other values mean store the value
// Can return MP_OBJ_NULL if operation not supported.
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uint8_t slot_index_subscr ;
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// This slot's behaviour depends on the MP_TYPE_FLAG_ITER_IS_* flags above.
// - If MP_TYPE_FLAG_ITER_IS_GETITER flag is set, then this corresponds to the __iter__
// special method (of type mp_getiter_fun_t). Can use the given mp_obj_iter_buf_t
// to store the iterator object, otherwise can return a pointer to an object on the heap.
// - If MP_TYPE_FLAG_ITER_IS_ITERNEXT is set, then this corresponds to __next__ special method.
// May return MP_OBJ_STOP_ITERATION as an optimisation instead of raising StopIteration()
// with no args. The type will implicitly implement getiter as "return self".
// - If MP_TYPE_FLAG_ITER_IS_CUSTOM is set, then this slot must point to an
// mp_getiter_iternext_custom_t instance with both the getiter and iternext fields set.
// - If MP_TYPE_FLAG_ITER_IS_STREAM is set, this this slot should be unset.
uint8_t slot_index_iter ;
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// Implements the buffer protocol if supported by this type.
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uint8_t slot_index_buffer ;
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// One of disjoint protocols (interfaces), like mp_stream_p_t, etc.
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uint8_t slot_index_protocol ;
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// A pointer to the parents of this type:
// - 0 parents: pointer is NULL (object is implicitly the single parent)
// - 1 parent: a pointer to the type of that parent
// - 2 or more parents: pointer to a tuple object containing the parent types
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uint8_t slot_index_parent ;
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// A dict mapping qstrs to objects local methods/constants/etc.
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uint8_t slot_index_locals_dict ;
const void * slots [ ] ;
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} ;
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// Non-variable sized versions of mp_obj_type_t to be used as a member
// in other structs or for dynamic allocation. The fields are exactly
// as in mp_obj_type_t, but with a fixed size for the flexible array
// members.
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typedef struct _mp_obj_empty_type_t {
mp_obj_base_t base ;
uint16_t flags ;
uint16_t name ;
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uint8_t slot_index_make_new ;
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uint8_t slot_index_print ;
uint8_t slot_index_call ;
uint8_t slot_index_unary_op ;
uint8_t slot_index_binary_op ;
uint8_t slot_index_attr ;
uint8_t slot_index_subscr ;
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uint8_t slot_index_iter ;
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uint8_t slot_index_buffer ;
uint8_t slot_index_protocol ;
uint8_t slot_index_parent ;
uint8_t slot_index_locals_dict ;
// No slots member.
} mp_obj_empty_type_t ;
typedef struct _mp_obj_full_type_t {
mp_obj_base_t base ;
uint16_t flags ;
uint16_t name ;
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uint8_t slot_index_make_new ;
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uint8_t slot_index_print ;
uint8_t slot_index_call ;
uint8_t slot_index_unary_op ;
uint8_t slot_index_binary_op ;
uint8_t slot_index_attr ;
uint8_t slot_index_subscr ;
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uint8_t slot_index_iter ;
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uint8_t slot_index_buffer ;
uint8_t slot_index_protocol ;
uint8_t slot_index_parent ;
uint8_t slot_index_locals_dict ;
// Explicitly add 12 slots.
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const void * slots [ 11 ] ;
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} mp_obj_full_type_t ;
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# define _MP_OBJ_TYPE_SLOT_TYPE_make_new (mp_make_new_fun_t)
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# define _MP_OBJ_TYPE_SLOT_TYPE_print (mp_print_fun_t)
# define _MP_OBJ_TYPE_SLOT_TYPE_call (mp_call_fun_t)
# define _MP_OBJ_TYPE_SLOT_TYPE_unary_op (mp_unary_op_fun_t)
# define _MP_OBJ_TYPE_SLOT_TYPE_binary_op (mp_binary_op_fun_t)
# define _MP_OBJ_TYPE_SLOT_TYPE_attr (mp_attr_fun_t)
# define _MP_OBJ_TYPE_SLOT_TYPE_subscr (mp_subscr_fun_t)
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# define _MP_OBJ_TYPE_SLOT_TYPE_iter (const void *)
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# define _MP_OBJ_TYPE_SLOT_TYPE_buffer (mp_buffer_fun_t)
# define _MP_OBJ_TYPE_SLOT_TYPE_protocol (const void *)
# define _MP_OBJ_TYPE_SLOT_TYPE_parent (const void *)
# define _MP_OBJ_TYPE_SLOT_TYPE_locals_dict (struct _mp_obj_dict_t *)
// Implementation of MP_DEFINE_CONST_OBJ_TYPE for each number of arguments.
// Do not use these directly, instead use MP_DEFINE_CONST_OBJ_TYPE.
// Generated with:
// for i in range(13):
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// print(f"#define MP_DEFINE_CONST_OBJ_TYPE_NARGS_{i}(_struct_type, _typename, _name, _flags{''.join(f', f{j+1}, v{j+1}' for j in range(i))}) const _struct_type _typename = {{ .base = {{ &mp_type_type }}, .name = _name, .flags = _flags{''.join(f', .slot_index_##f{j+1} = {j+1}' for j in range(i))}{', .slots = { ' + ''.join(f'v{j+1}, ' for j in range(i)) + '}' if i else '' } }}")
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_0(_struct_type, _typename, _name, _flags) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags }
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_1(_struct_type, _typename, _name, _flags, f1, v1) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags, .slot_index_##f1 = 1, .slots = { v1, } }
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_2(_struct_type, _typename, _name, _flags, f1, v1, f2, v2) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags, .slot_index_##f1 = 1, .slot_index_##f2 = 2, .slots = { v1, v2, } }
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_3(_struct_type, _typename, _name, _flags, f1, v1, f2, v2, f3, v3) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags, .slot_index_##f1 = 1, .slot_index_##f2 = 2, .slot_index_##f3 = 3, .slots = { v1, v2, v3, } }
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_4(_struct_type, _typename, _name, _flags, f1, v1, f2, v2, f3, v3, f4, v4) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags, .slot_index_##f1 = 1, .slot_index_##f2 = 2, .slot_index_##f3 = 3, .slot_index_##f4 = 4, .slots = { v1, v2, v3, v4, } }
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_5(_struct_type, _typename, _name, _flags, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags, .slot_index_##f1 = 1, .slot_index_##f2 = 2, .slot_index_##f3 = 3, .slot_index_##f4 = 4, .slot_index_##f5 = 5, .slots = { v1, v2, v3, v4, v5, } }
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_6(_struct_type, _typename, _name, _flags, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags, .slot_index_##f1 = 1, .slot_index_##f2 = 2, .slot_index_##f3 = 3, .slot_index_##f4 = 4, .slot_index_##f5 = 5, .slot_index_##f6 = 6, .slots = { v1, v2, v3, v4, v5, v6, } }
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_7(_struct_type, _typename, _name, _flags, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags, .slot_index_##f1 = 1, .slot_index_##f2 = 2, .slot_index_##f3 = 3, .slot_index_##f4 = 4, .slot_index_##f5 = 5, .slot_index_##f6 = 6, .slot_index_##f7 = 7, .slots = { v1, v2, v3, v4, v5, v6, v7, } }
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_8(_struct_type, _typename, _name, _flags, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7, f8, v8) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags, .slot_index_##f1 = 1, .slot_index_##f2 = 2, .slot_index_##f3 = 3, .slot_index_##f4 = 4, .slot_index_##f5 = 5, .slot_index_##f6 = 6, .slot_index_##f7 = 7, .slot_index_##f8 = 8, .slots = { v1, v2, v3, v4, v5, v6, v7, v8, } }
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_9(_struct_type, _typename, _name, _flags, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7, f8, v8, f9, v9) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags, .slot_index_##f1 = 1, .slot_index_##f2 = 2, .slot_index_##f3 = 3, .slot_index_##f4 = 4, .slot_index_##f5 = 5, .slot_index_##f6 = 6, .slot_index_##f7 = 7, .slot_index_##f8 = 8, .slot_index_##f9 = 9, .slots = { v1, v2, v3, v4, v5, v6, v7, v8, v9, } }
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_10(_struct_type, _typename, _name, _flags, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7, f8, v8, f9, v9, f10, v10) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags, .slot_index_##f1 = 1, .slot_index_##f2 = 2, .slot_index_##f3 = 3, .slot_index_##f4 = 4, .slot_index_##f5 = 5, .slot_index_##f6 = 6, .slot_index_##f7 = 7, .slot_index_##f8 = 8, .slot_index_##f9 = 9, .slot_index_##f10 = 10, .slots = { v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, } }
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_11(_struct_type, _typename, _name, _flags, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7, f8, v8, f9, v9, f10, v10, f11, v11) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags, .slot_index_##f1 = 1, .slot_index_##f2 = 2, .slot_index_##f3 = 3, .slot_index_##f4 = 4, .slot_index_##f5 = 5, .slot_index_##f6 = 6, .slot_index_##f7 = 7, .slot_index_##f8 = 8, .slot_index_##f9 = 9, .slot_index_##f10 = 10, .slot_index_##f11 = 11, .slots = { v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, } }
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS_12(_struct_type, _typename, _name, _flags, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7, f8, v8, f9, v9, f10, v10, f11, v11, f12, v12) const _struct_type _typename = { .base = { &mp_type_type }, .name = _name, .flags = _flags, .slot_index_##f1 = 1, .slot_index_##f2 = 2, .slot_index_##f3 = 3, .slot_index_##f4 = 4, .slot_index_##f5 = 5, .slot_index_##f6 = 6, .slot_index_##f7 = 7, .slot_index_##f8 = 8, .slot_index_##f9 = 9, .slot_index_##f10 = 10, .slot_index_##f11 = 11, .slot_index_##f12 = 12, .slots = { v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, } }
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# define MP_OBJ_TYPE_HAS_SLOT(t, f) ((t)->slot_index_##f)
# define MP_OBJ_TYPE_GET_SLOT(t, f) (_MP_OBJ_TYPE_SLOT_TYPE_##f(t)->slots[(t)->slot_index_##f - 1])
# define MP_OBJ_TYPE_GET_SLOT_OR_NULL(t, f) (_MP_OBJ_TYPE_SLOT_TYPE_##f(MP_OBJ_TYPE_HAS_SLOT(t, f) ? MP_OBJ_TYPE_GET_SLOT(t, f) : NULL))
# define MP_OBJ_TYPE_SET_SLOT(t, f, v, n) ((t)->slot_index_##f = (n) + 1, (t)->slots[(t)->slot_index_##f - 1] = (void *)v)
# define MP_OBJ_TYPE_OFFSETOF_SLOT(f) (offsetof(mp_obj_type_t, slot_index_##f))
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# define MP_OBJ_TYPE_HAS_SLOT_BY_OFFSET(t, offset) (*(uint8_t *)((char *)(t) + (offset)) != 0)
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// Workaround for https://docs.microsoft.com/en-us/cpp/preprocessor/preprocessor-experimental-overview?view=msvc-160#macro-arguments-are-unpacked
# define MP_DEFINE_CONST_OBJ_TYPE_EXPAND(x) x
// This macro evaluates to MP_DEFINE_CONST_OBJ_TYPE_NARGS_##N, where N is the value
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// of the 29th argument (29 is 13*2 + 3).
# define MP_DEFINE_CONST_OBJ_TYPE_NARGS(_1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, _16, _17, _18, _19, _20, _21, _22, _23, _24, _25, _26, _27, _28, N, ...) MP_DEFINE_CONST_OBJ_TYPE_NARGS_##N
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// These macros are used to define a object type in ROM.
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// Invoke as MP_DEFINE_CONST_OBJ_TYPE(_typename, _name, _flags, _make_new [, slot, func]*)
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// They use the number of arguments to select which MP_DEFINE_CONST_OBJ_TYPE_*
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// macro to use based on the number of arguments. It works by shifting the
// numeric values 12, 11, ... 0 by the number of arguments, such that the
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// 29th argument ends up being the number to use. The _INV values are
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// placeholders because the slot arguments come in pairs.
# define MP_DEFINE_CONST_OBJ_TYPE(...) MP_DEFINE_CONST_OBJ_TYPE_EXPAND(MP_DEFINE_CONST_OBJ_TYPE_NARGS(__VA_ARGS__, _INV, 12, _INV, 11, _INV, 10, _INV, 9, _INV, 8, _INV, 7, _INV, 6, _INV, 5, _INV, 4, _INV, 3, _INV, 2, _INV, 1, _INV, 0)(mp_obj_type_t, __VA_ARGS__))
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# define MP_DEFINE_CONST_OBJ_FULL_TYPE(...) MP_DEFINE_CONST_OBJ_TYPE_EXPAND(MP_DEFINE_CONST_OBJ_TYPE_NARGS(__VA_ARGS__, _INV, 12, _INV, 11, _INV, 10, _INV, 9, _INV, 8, _INV, 7, _INV, 6, _INV, 5, _INV, 4, _INV, 3, _INV, 2, _INV, 1, _INV, 0)(mp_obj_full_type_t, __VA_ARGS__))
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// Constant types, globally accessible
extern const mp_obj_type_t mp_type_type ;
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extern const mp_obj_type_t mp_type_object ;
extern const mp_obj_type_t mp_type_NoneType ;
extern const mp_obj_type_t mp_type_bool ;
extern const mp_obj_type_t mp_type_int ;
extern const mp_obj_type_t mp_type_str ;
extern const mp_obj_type_t mp_type_bytes ;
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extern const mp_obj_type_t mp_type_bytearray ;
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extern const mp_obj_type_t mp_type_memoryview ;
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extern const mp_obj_type_t mp_type_float ;
extern const mp_obj_type_t mp_type_complex ;
extern const mp_obj_type_t mp_type_tuple ;
extern const mp_obj_type_t mp_type_list ;
extern const mp_obj_type_t mp_type_map ; // map (the python builtin, not the dict implementation detail)
extern const mp_obj_type_t mp_type_enumerate ;
extern const mp_obj_type_t mp_type_filter ;
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extern const mp_obj_type_t mp_type_deque ;
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extern const mp_obj_type_t mp_type_dict ;
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extern const mp_obj_type_t mp_type_ordereddict ;
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extern const mp_obj_type_t mp_type_range ;
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extern const mp_obj_type_t mp_type_set ;
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extern const mp_obj_type_t mp_type_frozenset ;
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extern const mp_obj_type_t mp_type_slice ;
extern const mp_obj_type_t mp_type_zip ;
extern const mp_obj_type_t mp_type_array ;
extern const mp_obj_type_t mp_type_super ;
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extern const mp_obj_type_t mp_type_gen_wrap ;
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extern const mp_obj_type_t mp_type_native_gen_wrap ;
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extern const mp_obj_type_t mp_type_gen_instance ;
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extern const mp_obj_type_t mp_type_fun_builtin_0 ;
extern const mp_obj_type_t mp_type_fun_builtin_1 ;
extern const mp_obj_type_t mp_type_fun_builtin_2 ;
extern const mp_obj_type_t mp_type_fun_builtin_3 ;
extern const mp_obj_type_t mp_type_fun_builtin_var ;
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extern const mp_obj_type_t mp_type_fun_bc ;
extern const mp_obj_type_t mp_type_module ;
extern const mp_obj_type_t mp_type_staticmethod ;
extern const mp_obj_type_t mp_type_classmethod ;
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extern const mp_obj_type_t mp_type_property ;
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extern const mp_obj_type_t mp_type_stringio ;
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extern const mp_obj_type_t mp_type_bytesio ;
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extern const mp_obj_type_t mp_type_reversed ;
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extern const mp_obj_type_t mp_type_polymorph_iter ;
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# if MICROPY_ENABLE_FINALISER
extern const mp_obj_type_t mp_type_polymorph_iter_with_finaliser ;
# endif
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// Exceptions
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extern const mp_obj_type_t mp_type_BaseException ;
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extern const mp_obj_type_t mp_type_ArithmeticError ;
extern const mp_obj_type_t mp_type_AssertionError ;
extern const mp_obj_type_t mp_type_AttributeError ;
extern const mp_obj_type_t mp_type_EOFError ;
extern const mp_obj_type_t mp_type_Exception ;
extern const mp_obj_type_t mp_type_GeneratorExit ;
extern const mp_obj_type_t mp_type_ImportError ;
extern const mp_obj_type_t mp_type_IndentationError ;
extern const mp_obj_type_t mp_type_IndexError ;
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extern const mp_obj_type_t mp_type_KeyboardInterrupt ;
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extern const mp_obj_type_t mp_type_KeyError ;
extern const mp_obj_type_t mp_type_LookupError ;
extern const mp_obj_type_t mp_type_MemoryError ;
extern const mp_obj_type_t mp_type_NameError ;
extern const mp_obj_type_t mp_type_NotImplementedError ;
extern const mp_obj_type_t mp_type_OSError ;
extern const mp_obj_type_t mp_type_OverflowError ;
extern const mp_obj_type_t mp_type_RuntimeError ;
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extern const mp_obj_type_t mp_type_StopAsyncIteration ;
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extern const mp_obj_type_t mp_type_StopIteration ;
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extern const mp_obj_type_t mp_type_SyntaxError ;
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extern const mp_obj_type_t mp_type_SystemExit ;
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extern const mp_obj_type_t mp_type_TypeError ;
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extern const mp_obj_type_t mp_type_UnicodeError ;
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extern const mp_obj_type_t mp_type_ValueError ;
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extern const mp_obj_type_t mp_type_ViperTypeError ;
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extern const mp_obj_type_t mp_type_ZeroDivisionError ;
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// Constant objects, globally accessible: None, False, True
// These should always be accessed via the below macros.
# if MICROPY_OBJ_IMMEDIATE_OBJS
// None is even while False/True are odd so their types can be distinguished with 1 bit.
# define mp_const_none MP_OBJ_NEW_IMMEDIATE_OBJ(0)
# define mp_const_false MP_OBJ_NEW_IMMEDIATE_OBJ(1)
# define mp_const_true MP_OBJ_NEW_IMMEDIATE_OBJ(3)
# else
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# define mp_const_none (MP_OBJ_FROM_PTR(&mp_const_none_obj))
# define mp_const_false (MP_OBJ_FROM_PTR(&mp_const_false_obj))
# define mp_const_true (MP_OBJ_FROM_PTR(&mp_const_true_obj))
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extern const struct _mp_obj_none_t mp_const_none_obj ;
extern const struct _mp_obj_bool_t mp_const_false_obj ;
extern const struct _mp_obj_bool_t mp_const_true_obj ;
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# endif
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// Constant objects, globally accessible: b'', (), {}, Ellipsis, NotImplemented, GeneratorExit()
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// The below macros are for convenience only.
# define mp_const_empty_bytes (MP_OBJ_FROM_PTR(&mp_const_empty_bytes_obj))
# define mp_const_empty_tuple (MP_OBJ_FROM_PTR(&mp_const_empty_tuple_obj))
# define mp_const_notimplemented (MP_OBJ_FROM_PTR(&mp_const_notimplemented_obj))
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extern const struct _mp_obj_str_t mp_const_empty_bytes_obj ;
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extern const struct _mp_obj_tuple_t mp_const_empty_tuple_obj ;
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extern const struct _mp_obj_dict_t mp_const_empty_dict_obj ;
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extern const struct _mp_obj_singleton_t mp_const_ellipsis_obj ;
extern const struct _mp_obj_singleton_t mp_const_notimplemented_obj ;
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extern const struct _mp_obj_exception_t mp_const_GeneratorExit_obj ;
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// Fixed empty map. Useful when calling keyword-receiving functions
// without any keywords from C, etc.
# define mp_const_empty_map (mp_const_empty_dict_obj.map)
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// General API for objects
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// Helper versions of m_new_obj when you need to immediately set base.type.
// Implementing this as a call rather than inline saves 8 bytes per usage.
# define mp_obj_malloc(struct_type, obj_type) ((struct_type *)mp_obj_malloc_helper(sizeof(struct_type), obj_type))
# define mp_obj_malloc_var(struct_type, var_type, var_num, obj_type) ((struct_type *)mp_obj_malloc_helper(sizeof(struct_type) + sizeof(var_type) * (var_num), obj_type))
void * mp_obj_malloc_helper ( size_t num_bytes , const mp_obj_type_t * type ) ;
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// These macros are derived from more primitive ones and are used to
// check for more specific object types.
// Note: these are kept as macros because inline functions sometimes use much
// more code space than the equivalent macros, depending on the compiler.
py/obj: Add static safety checks to mp_obj_is_type().
Commit d96cfd13e3a464862c introduced a regression by breaking existing
users of mp_obj_is_type(.., &mp_obj_bool). This function (and associated
helpers like mp_obj_is_int()) have some specific nuances, and mistakes like
this one can happen again.
This commit adds mp_obj_is_exact_type() which behaves like the the old
mp_obj_is_type(). The new mp_obj_is_type() has the same prototype but it
attempts to statically assert that it's not called with types which should
be checked using mp_obj_is_type(). If called with any of these types: int,
str, bool, NoneType - it will cause a compilation error. Additional
checked types (e.g function types) can be added in the future.
Existing users of mp_obj_is_type() with the now "invalid" types, were
translated to use mp_obj_is_exact_type().
The use of MP_STATIC_ASSERT() is not bulletproof - usually GCC (and other
compilers) can't statically check conditions that are only known during
link-time (like variables' addresses comparison). However, in this case,
GCC is able to statically detect these conditions, probably because it's
the exact same object - `&mp_type_int == &mp_type_int` is detected.
Misuses of this function with runtime-chosen types (e.g:
`mp_obj_type_t *x = ...; mp_obj_is_type(..., x);` won't be detected. MSC
is unable to detect this, so we use MP_STATIC_ASSERT_NOT_MSC().
Compiling with this commit and without the fix for d96cfd13e3a464862c shows
that it detects the problem.
Signed-off-by: Yonatan Goldschmidt <yon.goldschmidt@gmail.com>
2020-01-22 07:34:19 -05:00
// don't use mp_obj_is_exact_type directly; use mp_obj_is_type which provides additional safety checks.
// use the former only if you need to bypass these checks (because you've already checked everything else)
# define mp_obj_is_exact_type(o, t) (mp_obj_is_obj(o) && (((mp_obj_base_t *)MP_OBJ_TO_PTR(o))->type == (t)))
// Type checks are split to a separate, constant result macro. This is so it doesn't hinder the compilers's
// optimizations (other tricks like using ({ expr; exper; }) or (exp, expr, expr) in mp_obj_is_type() result
// in missed optimizations)
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# define mp_type_assert_not_bool_int_str_nonetype(t) ( \
MP_STATIC_ASSERT_NOT_MSC ( ( t ) ! = & mp_type_bool ) , assert ( ( t ) ! = & mp_type_bool ) , \
MP_STATIC_ASSERT_NOT_MSC ( ( t ) ! = & mp_type_int ) , assert ( ( t ) ! = & mp_type_int ) , \
MP_STATIC_ASSERT_NOT_MSC ( ( t ) ! = & mp_type_str ) , assert ( ( t ) ! = & mp_type_str ) , \
MP_STATIC_ASSERT_NOT_MSC ( ( t ) ! = & mp_type_NoneType ) , assert ( ( t ) ! = & mp_type_NoneType ) , \
1 )
py/obj: Add static safety checks to mp_obj_is_type().
Commit d96cfd13e3a464862c introduced a regression by breaking existing
users of mp_obj_is_type(.., &mp_obj_bool). This function (and associated
helpers like mp_obj_is_int()) have some specific nuances, and mistakes like
this one can happen again.
This commit adds mp_obj_is_exact_type() which behaves like the the old
mp_obj_is_type(). The new mp_obj_is_type() has the same prototype but it
attempts to statically assert that it's not called with types which should
be checked using mp_obj_is_type(). If called with any of these types: int,
str, bool, NoneType - it will cause a compilation error. Additional
checked types (e.g function types) can be added in the future.
Existing users of mp_obj_is_type() with the now "invalid" types, were
translated to use mp_obj_is_exact_type().
The use of MP_STATIC_ASSERT() is not bulletproof - usually GCC (and other
compilers) can't statically check conditions that are only known during
link-time (like variables' addresses comparison). However, in this case,
GCC is able to statically detect these conditions, probably because it's
the exact same object - `&mp_type_int == &mp_type_int` is detected.
Misuses of this function with runtime-chosen types (e.g:
`mp_obj_type_t *x = ...; mp_obj_is_type(..., x);` won't be detected. MSC
is unable to detect this, so we use MP_STATIC_ASSERT_NOT_MSC().
Compiling with this commit and without the fix for d96cfd13e3a464862c shows
that it detects the problem.
Signed-off-by: Yonatan Goldschmidt <yon.goldschmidt@gmail.com>
2020-01-22 07:34:19 -05:00
# define mp_obj_is_type(o, t) (mp_type_assert_not_bool_int_str_nonetype(t) && mp_obj_is_exact_type(o, t))
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# if MICROPY_OBJ_IMMEDIATE_OBJS
// bool's are immediates, not real objects, so test for the 2 possible values.
# define mp_obj_is_bool(o) ((o) == mp_const_false || (o) == mp_const_true)
# else
py/obj: Add static safety checks to mp_obj_is_type().
Commit d96cfd13e3a464862c introduced a regression by breaking existing
users of mp_obj_is_type(.., &mp_obj_bool). This function (and associated
helpers like mp_obj_is_int()) have some specific nuances, and mistakes like
this one can happen again.
This commit adds mp_obj_is_exact_type() which behaves like the the old
mp_obj_is_type(). The new mp_obj_is_type() has the same prototype but it
attempts to statically assert that it's not called with types which should
be checked using mp_obj_is_type(). If called with any of these types: int,
str, bool, NoneType - it will cause a compilation error. Additional
checked types (e.g function types) can be added in the future.
Existing users of mp_obj_is_type() with the now "invalid" types, were
translated to use mp_obj_is_exact_type().
The use of MP_STATIC_ASSERT() is not bulletproof - usually GCC (and other
compilers) can't statically check conditions that are only known during
link-time (like variables' addresses comparison). However, in this case,
GCC is able to statically detect these conditions, probably because it's
the exact same object - `&mp_type_int == &mp_type_int` is detected.
Misuses of this function with runtime-chosen types (e.g:
`mp_obj_type_t *x = ...; mp_obj_is_type(..., x);` won't be detected. MSC
is unable to detect this, so we use MP_STATIC_ASSERT_NOT_MSC().
Compiling with this commit and without the fix for d96cfd13e3a464862c shows
that it detects the problem.
Signed-off-by: Yonatan Goldschmidt <yon.goldschmidt@gmail.com>
2020-01-22 07:34:19 -05:00
# define mp_obj_is_bool(o) mp_obj_is_exact_type(o, &mp_type_bool)
2020-01-22 07:19:14 -05:00
# endif
py/obj: Add static safety checks to mp_obj_is_type().
Commit d96cfd13e3a464862c introduced a regression by breaking existing
users of mp_obj_is_type(.., &mp_obj_bool). This function (and associated
helpers like mp_obj_is_int()) have some specific nuances, and mistakes like
this one can happen again.
This commit adds mp_obj_is_exact_type() which behaves like the the old
mp_obj_is_type(). The new mp_obj_is_type() has the same prototype but it
attempts to statically assert that it's not called with types which should
be checked using mp_obj_is_type(). If called with any of these types: int,
str, bool, NoneType - it will cause a compilation error. Additional
checked types (e.g function types) can be added in the future.
Existing users of mp_obj_is_type() with the now "invalid" types, were
translated to use mp_obj_is_exact_type().
The use of MP_STATIC_ASSERT() is not bulletproof - usually GCC (and other
compilers) can't statically check conditions that are only known during
link-time (like variables' addresses comparison). However, in this case,
GCC is able to statically detect these conditions, probably because it's
the exact same object - `&mp_type_int == &mp_type_int` is detected.
Misuses of this function with runtime-chosen types (e.g:
`mp_obj_type_t *x = ...; mp_obj_is_type(..., x);` won't be detected. MSC
is unable to detect this, so we use MP_STATIC_ASSERT_NOT_MSC().
Compiling with this commit and without the fix for d96cfd13e3a464862c shows
that it detects the problem.
Signed-off-by: Yonatan Goldschmidt <yon.goldschmidt@gmail.com>
2020-01-22 07:34:19 -05:00
# define mp_obj_is_int(o) (mp_obj_is_small_int(o) || mp_obj_is_exact_type(o, &mp_type_int))
# define mp_obj_is_str(o) (mp_obj_is_qstr(o) || mp_obj_is_exact_type(o, &mp_type_str))
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# define mp_obj_is_str_or_bytes(o) (mp_obj_is_qstr(o) || (mp_obj_is_obj(o) && MP_OBJ_TYPE_GET_SLOT_OR_NULL(((mp_obj_base_t *)MP_OBJ_TO_PTR(o))->type, binary_op) == mp_obj_str_binary_op))
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# define mp_obj_is_dict_or_ordereddict(o) (mp_obj_is_obj(o) && MP_OBJ_TYPE_GET_SLOT_OR_NULL(((mp_obj_base_t *)MP_OBJ_TO_PTR(o))->type, make_new) == mp_obj_dict_make_new)
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# define mp_obj_is_fun(o) (mp_obj_is_obj(o) && (((mp_obj_base_t *)MP_OBJ_TO_PTR(o))->type->name == MP_QSTR_function))
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mp_obj_t mp_obj_new_type ( qstr name , mp_obj_t bases_tuple , mp_obj_t locals_dict ) ;
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static inline mp_obj_t mp_obj_new_bool ( mp_int_t x ) {
return x ? mp_const_true : mp_const_false ;
}
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mp_obj_t mp_obj_new_cell ( mp_obj_t obj ) ;
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mp_obj_t mp_obj_new_int ( mp_int_t value ) ;
mp_obj_t mp_obj_new_int_from_uint ( mp_uint_t value ) ;
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mp_obj_t mp_obj_new_int_from_str_len ( const char * * str , size_t len , bool neg , unsigned int base ) ;
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mp_obj_t mp_obj_new_int_from_ll ( long long val ) ; // this must return a multi-precision integer object (or raise an overflow exception)
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mp_obj_t mp_obj_new_int_from_ull ( unsigned long long val ) ; // this must return a multi-precision integer object (or raise an overflow exception)
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mp_obj_t mp_obj_new_str ( const char * data , size_t len ) ; // will check utf-8 (raises UnicodeError)
mp_obj_t mp_obj_new_str_via_qstr ( const char * data , size_t len ) ; // input data must be valid utf-8
mp_obj_t mp_obj_new_str_from_vstr ( vstr_t * vstr ) ; // will check utf-8 (raises UnicodeError)
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# if MICROPY_PY_BUILTINS_STR_UNICODE && MICROPY_PY_BUILTINS_STR_UNICODE_CHECK
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mp_obj_t mp_obj_new_str_from_utf8_vstr ( vstr_t * vstr ) ; // input data must be valid utf-8
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# else
# define mp_obj_new_str_from_utf8_vstr mp_obj_new_str_from_vstr
# endif
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mp_obj_t mp_obj_new_bytes_from_vstr ( vstr_t * vstr ) ;
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mp_obj_t mp_obj_new_bytes ( const byte * data , size_t len ) ;
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mp_obj_t mp_obj_new_bytearray ( size_t n , const void * items ) ;
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mp_obj_t mp_obj_new_bytearray_by_ref ( size_t n , void * items ) ;
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# if MICROPY_PY_BUILTINS_FLOAT
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mp_obj_t mp_obj_new_int_from_float ( mp_float_t val ) ;
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mp_obj_t mp_obj_new_complex ( mp_float_t real , mp_float_t imag ) ;
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# endif
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mp_obj_t mp_obj_new_exception ( const mp_obj_type_t * exc_type ) ;
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mp_obj_t mp_obj_new_exception_args ( const mp_obj_type_t * exc_type , size_t n_args , const mp_obj_t * args ) ;
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# if MICROPY_ERROR_REPORTING == MICROPY_ERROR_REPORTING_NONE
# define mp_obj_new_exception_msg(exc_type, msg) mp_obj_new_exception(exc_type)
# define mp_obj_new_exception_msg_varg(exc_type, ...) mp_obj_new_exception(exc_type)
# else
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mp_obj_t mp_obj_new_exception_msg ( const mp_obj_type_t * exc_type , mp_rom_error_text_t msg ) ;
mp_obj_t mp_obj_new_exception_msg_varg ( const mp_obj_type_t * exc_type , mp_rom_error_text_t fmt , . . . ) ; // counts args by number of % symbols in fmt, excluding %%; can only handle void* sizes (ie no float/double!)
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# endif
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# ifdef va_start
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mp_obj_t mp_obj_new_exception_msg_vlist ( const mp_obj_type_t * exc_type , mp_rom_error_text_t fmt , va_list arg ) ; // same fmt restrictions as above
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# endif
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mp_obj_t mp_obj_new_gen_wrap ( mp_obj_t fun ) ;
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mp_obj_t mp_obj_new_closure ( mp_obj_t fun , size_t n_closed , const mp_obj_t * closed ) ;
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mp_obj_t mp_obj_new_tuple ( size_t n , const mp_obj_t * items ) ;
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mp_obj_t mp_obj_new_list ( size_t n , mp_obj_t * items ) ;
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mp_obj_t mp_obj_new_dict ( size_t n_args ) ;
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mp_obj_t mp_obj_new_set ( size_t n_args , mp_obj_t * items ) ;
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mp_obj_t mp_obj_new_slice ( mp_obj_t start , mp_obj_t stop , mp_obj_t step ) ;
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mp_obj_t mp_obj_new_bound_meth ( mp_obj_t meth , mp_obj_t self ) ;
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mp_obj_t mp_obj_new_getitem_iter ( mp_obj_t * args , mp_obj_iter_buf_t * iter_buf ) ;
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mp_obj_t mp_obj_new_module ( qstr module_name ) ;
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mp_obj_t mp_obj_new_memoryview ( byte typecode , size_t nitems , void * items ) ;
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const mp_obj_type_t * mp_obj_get_type ( mp_const_obj_t o_in ) ;
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const char * mp_obj_get_type_str ( mp_const_obj_t o_in ) ;
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bool mp_obj_is_subclass_fast ( mp_const_obj_t object , mp_const_obj_t classinfo ) ; // arguments should be type objects
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mp_obj_t mp_obj_cast_to_native_base ( mp_obj_t self_in , mp_const_obj_t native_type ) ;
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void mp_obj_print_helper ( const mp_print_t * print , mp_obj_t o_in , mp_print_kind_t kind ) ;
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void mp_obj_print ( mp_obj_t o , mp_print_kind_t kind ) ;
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void mp_obj_print_exception ( const mp_print_t * print , mp_obj_t exc ) ;
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bool mp_obj_is_true ( mp_obj_t arg ) ;
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bool mp_obj_is_callable ( mp_obj_t o_in ) ;
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mp_obj_t mp_obj_equal_not_equal ( mp_binary_op_t op , mp_obj_t o1 , mp_obj_t o2 ) ;
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bool mp_obj_equal ( mp_obj_t o1 , mp_obj_t o2 ) ;
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// returns true if o is bool, small int or long int
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static inline bool mp_obj_is_integer ( mp_const_obj_t o ) {
return mp_obj_is_int ( o ) | | mp_obj_is_bool ( o ) ;
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}
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mp_int_t mp_obj_get_int ( mp_const_obj_t arg ) ;
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mp_int_t mp_obj_get_int_truncated ( mp_const_obj_t arg ) ;
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bool mp_obj_get_int_maybe ( mp_const_obj_t arg , mp_int_t * value ) ;
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# if MICROPY_PY_BUILTINS_FLOAT
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mp_float_t mp_obj_get_float ( mp_obj_t self_in ) ;
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bool mp_obj_get_float_maybe ( mp_obj_t arg , mp_float_t * value ) ;
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void mp_obj_get_complex ( mp_obj_t self_in , mp_float_t * real , mp_float_t * imag ) ;
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bool mp_obj_get_complex_maybe ( mp_obj_t self_in , mp_float_t * real , mp_float_t * imag ) ;
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# endif
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void mp_obj_get_array ( mp_obj_t o , size_t * len , mp_obj_t * * items ) ; // *items may point inside a GC block
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void mp_obj_get_array_fixed_n ( mp_obj_t o , size_t len , mp_obj_t * * items ) ; // *items may point inside a GC block
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size_t mp_get_index ( const mp_obj_type_t * type , size_t len , mp_obj_t index , bool is_slice ) ;
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mp_obj_t mp_obj_id ( mp_obj_t o_in ) ;
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mp_obj_t mp_obj_len ( mp_obj_t o_in ) ;
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mp_obj_t mp_obj_len_maybe ( mp_obj_t o_in ) ; // may return MP_OBJ_NULL
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mp_obj_t mp_obj_subscr ( mp_obj_t base , mp_obj_t index , mp_obj_t val ) ;
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mp_obj_t mp_generic_unary_op ( mp_unary_op_t op , mp_obj_t o_in ) ;
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// cell
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typedef struct _mp_obj_cell_t {
mp_obj_base_t base ;
mp_obj_t obj ;
} mp_obj_cell_t ;
static inline mp_obj_t mp_obj_cell_get ( mp_obj_t self_in ) {
mp_obj_cell_t * self = ( mp_obj_cell_t * ) MP_OBJ_TO_PTR ( self_in ) ;
return self - > obj ;
}
static inline void mp_obj_cell_set ( mp_obj_t self_in , mp_obj_t obj ) {
mp_obj_cell_t * self = ( mp_obj_cell_t * ) MP_OBJ_TO_PTR ( self_in ) ;
self - > obj = obj ;
}
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// int
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// For long int, returns value truncated to mp_int_t
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mp_int_t mp_obj_int_get_truncated ( mp_const_obj_t self_in ) ;
// Will raise exception if value doesn't fit into mp_int_t
mp_int_t mp_obj_int_get_checked ( mp_const_obj_t self_in ) ;
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// Will raise exception if value is negative or doesn't fit into mp_uint_t
mp_uint_t mp_obj_int_get_uint_checked ( mp_const_obj_t self_in ) ;
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// exception
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# define mp_obj_is_native_exception_instance(o) (MP_OBJ_TYPE_GET_SLOT_OR_NULL(mp_obj_get_type(o), make_new) == mp_obj_exception_make_new)
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bool mp_obj_is_exception_type ( mp_obj_t self_in ) ;
bool mp_obj_is_exception_instance ( mp_obj_t self_in ) ;
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bool mp_obj_exception_match ( mp_obj_t exc , mp_const_obj_t exc_type ) ;
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void mp_obj_exception_clear_traceback ( mp_obj_t self_in ) ;
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void mp_obj_exception_add_traceback ( mp_obj_t self_in , qstr file , size_t line , qstr block ) ;
void mp_obj_exception_get_traceback ( mp_obj_t self_in , size_t * n , size_t * * values ) ;
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mp_obj_t mp_obj_exception_get_value ( mp_obj_t self_in ) ;
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mp_obj_t mp_obj_exception_make_new ( const mp_obj_type_t * type_in , size_t n_args , size_t n_kw , const mp_obj_t * args ) ;
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mp_obj_t mp_alloc_emergency_exception_buf ( mp_obj_t size_in ) ;
void mp_init_emergency_exception_buf ( void ) ;
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static inline mp_obj_t mp_obj_new_exception_arg1 ( const mp_obj_type_t * exc_type , mp_obj_t arg ) {
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assert ( MP_OBJ_TYPE_GET_SLOT_OR_NULL ( exc_type , make_new ) = = mp_obj_exception_make_new ) ;
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return mp_obj_exception_make_new ( exc_type , 1 , 0 , & arg ) ;
}
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// str
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bool mp_obj_str_equal ( mp_obj_t s1 , mp_obj_t s2 ) ;
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qstr mp_obj_str_get_qstr ( mp_obj_t self_in ) ; // use this if you will anyway convert the string to a qstr
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const char * mp_obj_str_get_str ( mp_obj_t self_in ) ; // use this only if you need the string to be null terminated
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const char * mp_obj_str_get_data ( mp_obj_t self_in , size_t * len ) ;
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mp_obj_t mp_obj_str_intern ( mp_obj_t str ) ;
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mp_obj_t mp_obj_str_intern_checked ( mp_obj_t obj ) ;
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void mp_str_print_quoted ( const mp_print_t * print , const byte * str_data , size_t str_len , bool is_bytes ) ;
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# if MICROPY_PY_BUILTINS_FLOAT
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// float
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# if MICROPY_FLOAT_IMPL == MICROPY_FLOAT_IMPL_FLOAT
static inline float mp_obj_get_float_to_f ( mp_obj_t o ) {
return mp_obj_get_float ( o ) ;
}
static inline double mp_obj_get_float_to_d ( mp_obj_t o ) {
return ( double ) mp_obj_get_float ( o ) ;
}
static inline mp_obj_t mp_obj_new_float_from_f ( float o ) {
return mp_obj_new_float ( o ) ;
}
static inline mp_obj_t mp_obj_new_float_from_d ( double o ) {
return mp_obj_new_float ( ( mp_float_t ) o ) ;
}
# elif MICROPY_FLOAT_IMPL == MICROPY_FLOAT_IMPL_DOUBLE
static inline float mp_obj_get_float_to_f ( mp_obj_t o ) {
return ( float ) mp_obj_get_float ( o ) ;
}
static inline double mp_obj_get_float_to_d ( mp_obj_t o ) {
return mp_obj_get_float ( o ) ;
}
static inline mp_obj_t mp_obj_new_float_from_f ( float o ) {
return mp_obj_new_float ( ( mp_float_t ) o ) ;
}
static inline mp_obj_t mp_obj_new_float_from_d ( double o ) {
return mp_obj_new_float ( o ) ;
}
# endif
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# if MICROPY_FLOAT_HIGH_QUALITY_HASH
mp_int_t mp_float_hash ( mp_float_t val ) ;
# else
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static inline mp_int_t mp_float_hash ( mp_float_t val ) {
return ( mp_int_t ) val ;
}
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# endif
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mp_obj_t mp_obj_float_binary_op ( mp_binary_op_t op , mp_float_t lhs_val , mp_obj_t rhs ) ; // can return MP_OBJ_NULL if op not supported
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// complex
void mp_obj_complex_get ( mp_obj_t self_in , mp_float_t * real , mp_float_t * imag ) ;
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mp_obj_t mp_obj_complex_binary_op ( mp_binary_op_t op , mp_float_t lhs_real , mp_float_t lhs_imag , mp_obj_t rhs_in ) ; // can return MP_OBJ_NULL if op not supported
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# else
# define mp_obj_is_float(o) (false)
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# endif
// tuple
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void mp_obj_tuple_get ( mp_obj_t self_in , size_t * len , mp_obj_t * * items ) ;
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void mp_obj_tuple_del ( mp_obj_t self_in ) ;
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mp_int_t mp_obj_tuple_hash ( mp_obj_t self_in ) ;
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// list
mp_obj_t mp_obj_list_append ( mp_obj_t self_in , mp_obj_t arg ) ;
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mp_obj_t mp_obj_list_remove ( mp_obj_t self_in , mp_obj_t value ) ;
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void mp_obj_list_get ( mp_obj_t self_in , size_t * len , mp_obj_t * * items ) ;
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void mp_obj_list_set_len ( mp_obj_t self_in , size_t len ) ;
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void mp_obj_list_store ( mp_obj_t self_in , mp_obj_t index , mp_obj_t value ) ;
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mp_obj_t mp_obj_list_sort ( size_t n_args , const mp_obj_t * args , mp_map_t * kwargs ) ;
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// dict
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typedef struct _mp_obj_dict_t {
mp_obj_base_t base ;
mp_map_t map ;
} mp_obj_dict_t ;
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mp_obj_t mp_obj_dict_make_new ( const mp_obj_type_t * type , size_t n_args , size_t n_kw , const mp_obj_t * args ) ;
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void mp_obj_dict_init ( mp_obj_dict_t * dict , size_t n_args ) ;
size_t mp_obj_dict_len ( mp_obj_t self_in ) ;
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mp_obj_t mp_obj_dict_get ( mp_obj_t self_in , mp_obj_t index ) ;
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mp_obj_t mp_obj_dict_store ( mp_obj_t self_in , mp_obj_t key , mp_obj_t value ) ;
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mp_obj_t mp_obj_dict_delete ( mp_obj_t self_in , mp_obj_t key ) ;
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mp_obj_t mp_obj_dict_copy ( mp_obj_t self_in ) ;
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static inline mp_map_t * mp_obj_dict_get_map ( mp_obj_t dict ) {
return & ( ( mp_obj_dict_t * ) MP_OBJ_TO_PTR ( dict ) ) - > map ;
}
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// set
void mp_obj_set_store ( mp_obj_t self_in , mp_obj_t item ) ;
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// slice indexes resolved to particular sequence
typedef struct {
mp_int_t start ;
mp_int_t stop ;
mp_int_t step ;
} mp_bound_slice_t ;
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// slice
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typedef struct _mp_obj_slice_t {
mp_obj_base_t base ;
mp_obj_t start ;
mp_obj_t stop ;
mp_obj_t step ;
} mp_obj_slice_t ;
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void mp_obj_slice_indices ( mp_obj_t self_in , mp_int_t length , mp_bound_slice_t * result ) ;
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// functions
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typedef struct _mp_obj_fun_builtin_fixed_t {
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mp_obj_base_t base ;
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union {
mp_fun_0_t _0 ;
mp_fun_1_t _1 ;
mp_fun_2_t _2 ;
mp_fun_3_t _3 ;
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} fun ;
} mp_obj_fun_builtin_fixed_t ;
typedef struct _mp_obj_fun_builtin_var_t {
mp_obj_base_t base ;
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uint32_t sig ; // see MP_OBJ_FUN_MAKE_SIG
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union {
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mp_fun_var_t var ;
mp_fun_kw_t kw ;
} fun ;
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} mp_obj_fun_builtin_var_t ;
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qstr mp_obj_fun_get_name ( mp_const_obj_t fun ) ;
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mp_obj_t mp_identity ( mp_obj_t self ) ;
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MP_DECLARE_CONST_FUN_OBJ_1 ( mp_identity_obj ) ;
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// module
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typedef struct _mp_obj_module_t {
mp_obj_base_t base ;
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mp_obj_dict_t * globals ;
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} mp_obj_module_t ;
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static inline mp_obj_dict_t * mp_obj_module_get_globals ( mp_obj_t module ) {
return ( ( mp_obj_module_t * ) MP_OBJ_TO_PTR ( module ) ) - > globals ;
}
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// check if given module object is a package
bool mp_obj_is_package ( mp_obj_t module ) ;
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// staticmethod and classmethod types; defined here so we can make const versions
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// this structure is used for instances of both staticmethod and classmethod
typedef struct _mp_obj_static_class_method_t {
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mp_obj_base_t base ;
mp_obj_t fun ;
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} mp_obj_static_class_method_t ;
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typedef struct _mp_rom_obj_static_class_method_t {
mp_obj_base_t base ;
mp_rom_obj_t fun ;
} mp_rom_obj_static_class_method_t ;
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// property
const mp_obj_t * mp_obj_property_get ( mp_obj_t self_in ) ;
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// sequence helpers
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void mp_seq_multiply ( const void * items , size_t item_sz , size_t len , size_t times , void * dest ) ;
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# if MICROPY_PY_BUILTINS_SLICE
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bool mp_seq_get_fast_slice_indexes ( mp_uint_t len , mp_obj_t slice , mp_bound_slice_t * indexes ) ;
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# endif
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# define mp_seq_copy(dest, src, len, item_t) memcpy(dest, src, len * sizeof(item_t))
# define mp_seq_cat(dest, src1, len1, src2, len2, item_t) { memcpy(dest, src1, (len1) * sizeof(item_t)); memcpy(dest + (len1), src2, (len2) * sizeof(item_t)); }
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bool mp_seq_cmp_bytes ( mp_uint_t op , const byte * data1 , size_t len1 , const byte * data2 , size_t len2 ) ;
bool mp_seq_cmp_objs ( mp_uint_t op , const mp_obj_t * items1 , size_t len1 , const mp_obj_t * items2 , size_t len2 ) ;
mp_obj_t mp_seq_index_obj ( const mp_obj_t * items , size_t len , size_t n_args , const mp_obj_t * args ) ;
mp_obj_t mp_seq_count_obj ( const mp_obj_t * items , size_t len , mp_obj_t value ) ;
mp_obj_t mp_seq_extract_slice ( size_t len , const mp_obj_t * seq , mp_bound_slice_t * indexes ) ;
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// Helper to clear stale pointers from allocated, but unused memory, to preclude GC problems
# define mp_seq_clear(start, len, alloc_len, item_sz) memset((byte *)(start) + (len) * (item_sz), 0, ((alloc_len) - (len)) * (item_sz))
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// Note: dest and slice regions may overlap
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# define mp_seq_replace_slice_no_grow(dest, dest_len, beg, end, slice, slice_len, item_sz) \
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memmove ( ( ( char * ) dest ) + ( beg ) * ( item_sz ) , slice , slice_len * ( item_sz ) ) ; \
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memmove ( ( ( char * ) dest ) + ( beg + slice_len ) * ( item_sz ) , ( ( char * ) dest ) + ( end ) * ( item_sz ) , ( dest_len - end ) * ( item_sz ) ) ;
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// Note: dest and slice regions may overlap
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# define mp_seq_replace_slice_grow_inplace(dest, dest_len, beg, end, slice, slice_len, len_adj, item_sz) \
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memmove ( ( ( char * ) dest ) + ( beg + slice_len ) * ( item_sz ) , ( ( char * ) dest ) + ( end ) * ( item_sz ) , ( ( dest_len ) + ( len_adj ) - ( ( beg ) + ( slice_len ) ) ) * ( item_sz ) ) ; \
memmove ( ( ( char * ) dest ) + ( beg ) * ( item_sz ) , slice , slice_len * ( item_sz ) ) ;
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// Provide translation for legacy API
# define MP_OBJ_IS_SMALL_INT mp_obj_is_small_int
# define MP_OBJ_IS_QSTR mp_obj_is_qstr
# define MP_OBJ_IS_OBJ mp_obj_is_obj
# define MP_OBJ_IS_INT mp_obj_is_int
# define MP_OBJ_IS_TYPE mp_obj_is_type
# define MP_OBJ_IS_STR mp_obj_is_str
# define MP_OBJ_IS_STR_OR_BYTES mp_obj_is_str_or_bytes
# define MP_OBJ_IS_FUN mp_obj_is_fun
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# define MP_MAP_SLOT_IS_FILLED mp_map_slot_is_filled
# define MP_SET_SLOT_IS_FILLED mp_set_slot_is_filled
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all: Unify header guard usage.
The code conventions suggest using header guards, but do not define how
those should look like and instead point to existing files. However, not
all existing files follow the same scheme, sometimes omitting header guards
altogether, sometimes using non-standard names, making it easy to
accidentally pick a "wrong" example.
This commit ensures that all header files of the MicroPython project (that
were not simply copied from somewhere else) follow the same pattern, that
was already present in the majority of files, especially in the py folder.
The rules are as follows.
Naming convention:
* start with the words MICROPY_INCLUDED
* contain the full path to the file
* replace special characters with _
In addition, there are no empty lines before #ifndef, between #ifndef and
one empty line before #endif. #endif is followed by a comment containing
the name of the guard macro.
py/grammar.h cannot use header guards by design, since it has to be
included multiple times in a single C file. Several other files also do not
need header guards as they are only used internally and guaranteed to be
included only once:
* MICROPY_MPHALPORT_H
* mpconfigboard.h
* mpconfigport.h
* mpthreadport.h
* pin_defs_*.h
* qstrdefs*.h
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# endif // MICROPY_INCLUDED_PY_OBJ_H