#ifndef FLATBUFFERS_COMMON_READER_H #define FLATBUFFERS_COMMON_READER_H /* Generated by flatcc 0.6.1 FlatBuffers schema compiler for C by dvide.com */ /* Common FlatBuffers read functionality for C. */ #include "flatcc_prologue.h" #include "flatcc_flatbuffers.h" #define __flatbuffers_read_scalar_at_byteoffset(N, p, o) N ## _read_from_pe((uint8_t *)(p) + (o)) #define __flatbuffers_read_scalar(N, p) N ## _read_from_pe(p) #define __flatbuffers_read_vt(ID, offset, t)\ flatbuffers_voffset_t offset = 0;\ { flatbuffers_voffset_t id__tmp, *vt__tmp;\ FLATCC_ASSERT(t != 0 && "null pointer table access");\ id__tmp = ID;\ vt__tmp = (flatbuffers_voffset_t *)((uint8_t *)(t) -\ __flatbuffers_soffset_read_from_pe(t));\ if (__flatbuffers_voffset_read_from_pe(vt__tmp) >= sizeof(vt__tmp[0]) * (id__tmp + 3u)) {\ offset = __flatbuffers_voffset_read_from_pe(vt__tmp + id__tmp + 2);\ }\ } #define __flatbuffers_field_present(ID, t) { __flatbuffers_read_vt(ID, offset__tmp, t) return offset__tmp != 0; } #define __flatbuffers_scalar_field(T, ID, t)\ {\ __flatbuffers_read_vt(ID, offset__tmp, t)\ if (offset__tmp) {\ return (const T *)((uint8_t *)(t) + offset__tmp);\ }\ return 0;\ } #define __flatbuffers_define_scalar_field(ID, N, NK, TK, T, V)\ static inline T N ## _ ## NK ## _get(N ## _table_t t__tmp)\ { __flatbuffers_read_vt(ID, offset__tmp, t__tmp)\ return offset__tmp ? __flatbuffers_read_scalar_at_byteoffset(TK, t__tmp, offset__tmp) : V;\ }\ static inline T N ## _ ## NK(N ## _table_t t__tmp)\ { __flatbuffers_read_vt(ID, offset__tmp, t__tmp)\ return offset__tmp ? __flatbuffers_read_scalar_at_byteoffset(TK, t__tmp, offset__tmp) : V;\ }\ static inline const T *N ## _ ## NK ## _get_ptr(N ## _table_t t__tmp)\ __flatbuffers_scalar_field(T, ID, t__tmp)\ static inline int N ## _ ## NK ## _is_present(N ## _table_t t__tmp)\ __flatbuffers_field_present(ID, t__tmp)\ __flatbuffers_define_scan_by_scalar_field(N, NK, T) #define __flatbuffers_define_scalar_optional_field(ID, N, NK, TK, T, V)\ __flatbuffers_define_scalar_field(ID, N, NK, TK, T, V)\ static inline TK ## _option_t N ## _ ## NK ## _option(N ## _table_t t__tmp)\ { TK ## _option_t ret; __flatbuffers_read_vt(ID, offset__tmp, t__tmp)\ ret.is_null = offset__tmp == 0; ret.value = offset__tmp ?\ __flatbuffers_read_scalar_at_byteoffset(TK, t__tmp, offset__tmp) : V;\ return ret; } #define __flatbuffers_struct_field(T, ID, t, r)\ {\ __flatbuffers_read_vt(ID, offset__tmp, t)\ if (offset__tmp) {\ return (T)((uint8_t *)(t) + offset__tmp);\ }\ FLATCC_ASSERT(!(r) && "required field missing");\ return 0;\ } #define __flatbuffers_offset_field(T, ID, t, r, adjust)\ {\ flatbuffers_uoffset_t *elem__tmp;\ __flatbuffers_read_vt(ID, offset__tmp, t)\ if (offset__tmp) {\ elem__tmp = (flatbuffers_uoffset_t *)((uint8_t *)(t) + offset__tmp);\ /* Add sizeof so C api can have raw access past header field. */\ return (T)((uint8_t *)(elem__tmp) + adjust +\ __flatbuffers_uoffset_read_from_pe(elem__tmp));\ }\ FLATCC_ASSERT(!(r) && "required field missing");\ return 0;\ } #define __flatbuffers_vector_field(T, ID, t, r) __flatbuffers_offset_field(T, ID, t, r, sizeof(flatbuffers_uoffset_t)) #define __flatbuffers_table_field(T, ID, t, r) __flatbuffers_offset_field(T, ID, t, r, 0) #define __flatbuffers_define_struct_field(ID, N, NK, T, r)\ static inline T N ## _ ## NK ## _get(N ## _table_t t__tmp)\ __flatbuffers_struct_field(T, ID, t__tmp, r)\ static inline T N ## _ ## NK(N ## _table_t t__tmp)\ __flatbuffers_struct_field(T, ID, t__tmp, r)\ static inline int N ## _ ## NK ## _is_present(N ## _table_t t__tmp)\ __flatbuffers_field_present(ID, t__tmp) #define __flatbuffers_define_vector_field(ID, N, NK, T, r)\ static inline T N ## _ ## NK ## _get(N ## _table_t t__tmp)\ __flatbuffers_vector_field(T, ID, t__tmp, r)\ static inline T N ## _ ## NK(N ## _table_t t__tmp)\ __flatbuffers_vector_field(T, ID, t__tmp, r)\ static inline int N ## _ ## NK ## _is_present(N ## _table_t t__tmp)\ __flatbuffers_field_present(ID, t__tmp) #define __flatbuffers_define_table_field(ID, N, NK, T, r)\ static inline T N ## _ ## NK ## _get(N ## _table_t t__tmp)\ __flatbuffers_table_field(T, ID, t__tmp, r)\ static inline T N ## _ ## NK(N ## _table_t t__tmp)\ __flatbuffers_table_field(T, ID, t__tmp, r)\ static inline int N ## _ ## NK ## _is_present(N ## _table_t t__tmp)\ __flatbuffers_field_present(ID, t__tmp) #define __flatbuffers_define_string_field(ID, N, NK, r)\ static inline flatbuffers_string_t N ## _ ## NK ## _get(N ## _table_t t__tmp)\ __flatbuffers_vector_field(flatbuffers_string_t, ID, t__tmp, r)\ static inline flatbuffers_string_t N ## _ ## NK(N ## _table_t t__tmp)\ __flatbuffers_vector_field(flatbuffers_string_t, ID, t__tmp, r)\ static inline int N ## _ ## NK ## _is_present(N ## _table_t t__tmp)\ __flatbuffers_field_present(ID, t__tmp)\ __flatbuffers_define_scan_by_string_field(N, NK) #define __flatbuffers_vec_len(vec)\ { return (vec) ? (size_t)__flatbuffers_uoffset_read_from_pe((flatbuffers_uoffset_t *)vec - 1) : 0; } #define __flatbuffers_string_len(s) __flatbuffers_vec_len(s) static inline size_t flatbuffers_vec_len(const void *vec) __flatbuffers_vec_len(vec) #define __flatbuffers_scalar_vec_at(N, vec, i)\ { FLATCC_ASSERT(flatbuffers_vec_len(vec) > (i) && "index out of range");\ return __flatbuffers_read_scalar(N, &(vec)[i]); } #define __flatbuffers_struct_vec_at(vec, i)\ { FLATCC_ASSERT(flatbuffers_vec_len(vec) > (i) && "index out of range"); return (vec) + (i); } /* `adjust` skips past the header for string vectors. */ #define __flatbuffers_offset_vec_at(T, vec, i, adjust)\ { const flatbuffers_uoffset_t *elem__tmp = (vec) + (i);\ FLATCC_ASSERT(flatbuffers_vec_len(vec) > (i) && "index out of range");\ return (T)((uint8_t *)(elem__tmp) + (size_t)__flatbuffers_uoffset_read_from_pe(elem__tmp) + (adjust)); } #define __flatbuffers_define_scalar_vec_len(N)\ static inline size_t N ## _vec_len(N ##_vec_t vec__tmp)\ { return flatbuffers_vec_len(vec__tmp); } #define __flatbuffers_define_scalar_vec_at(N, T) \ static inline T N ## _vec_at(N ## _vec_t vec__tmp, size_t i__tmp)\ __flatbuffers_scalar_vec_at(N, vec__tmp, i__tmp) typedef const char *flatbuffers_string_t; static inline size_t flatbuffers_string_len(flatbuffers_string_t s) __flatbuffers_string_len(s) typedef const flatbuffers_uoffset_t *flatbuffers_string_vec_t; typedef flatbuffers_uoffset_t *flatbuffers_string_mutable_vec_t; static inline size_t flatbuffers_string_vec_len(flatbuffers_string_vec_t vec) __flatbuffers_vec_len(vec) static inline flatbuffers_string_t flatbuffers_string_vec_at(flatbuffers_string_vec_t vec, size_t i) __flatbuffers_offset_vec_at(flatbuffers_string_t, vec, i, sizeof(vec[0])) typedef const void *flatbuffers_generic_t; typedef void *flatbuffers_mutable_generic_t; static inline flatbuffers_string_t flatbuffers_string_cast_from_generic(const flatbuffers_generic_t p) { return p ? ((const char *)p) + __flatbuffers_uoffset__size() : 0; } typedef const flatbuffers_uoffset_t *flatbuffers_generic_vec_t; typedef flatbuffers_uoffset_t *flatbuffers_generic_table_mutable_vec_t; static inline size_t flatbuffers_generic_vec_len(flatbuffers_generic_vec_t vec) __flatbuffers_vec_len(vec) static inline flatbuffers_generic_t flatbuffers_generic_vec_at(flatbuffers_generic_vec_t vec, size_t i) __flatbuffers_offset_vec_at(flatbuffers_generic_t, vec, i, 0) static inline flatbuffers_generic_t flatbuffers_generic_vec_at_as_string(flatbuffers_generic_vec_t vec, size_t i) __flatbuffers_offset_vec_at(flatbuffers_generic_t, vec, i, sizeof(vec[0])) typedef struct flatbuffers_union { flatbuffers_union_type_t type; flatbuffers_generic_t value; } flatbuffers_union_t; typedef struct flatbuffers_union_vec { const flatbuffers_union_type_t *type; const flatbuffers_uoffset_t *value; } flatbuffers_union_vec_t; typedef struct flatbuffers_mutable_union { flatbuffers_union_type_t type; flatbuffers_mutable_generic_t value; } flatbuffers_mutable_union_t; typedef struct flatbuffers_mutable_union_vec { flatbuffers_union_type_t *type; flatbuffers_uoffset_t *value; } flatbuffers_mutable_union_vec_t; static inline flatbuffers_mutable_union_t flatbuffers_mutable_union_cast(flatbuffers_union_t u__tmp)\ { flatbuffers_mutable_union_t mu = { u__tmp.type, (flatbuffers_mutable_generic_t)u__tmp.value };\ return mu; } static inline flatbuffers_mutable_union_vec_t flatbuffers_mutable_union_vec_cast(flatbuffers_union_vec_t uv__tmp)\ { flatbuffers_mutable_union_vec_t muv =\ { (flatbuffers_union_type_t *)uv__tmp.type, (flatbuffers_uoffset_t *)uv__tmp.value }; return muv; } #define __flatbuffers_union_type_field(ID, t)\ {\ __flatbuffers_read_vt(ID, offset__tmp, t)\ return offset__tmp ? __flatbuffers_read_scalar_at_byteoffset(__flatbuffers_utype, t, offset__tmp) : 0;\ } static inline flatbuffers_string_t flatbuffers_string_cast_from_union(const flatbuffers_union_t u__tmp)\ { return flatbuffers_string_cast_from_generic(u__tmp.value); } #define __flatbuffers_define_union_field(NS, ID, N, NK, T, r)\ static inline T ## _union_type_t N ## _ ## NK ## _type_get(N ## _table_t t__tmp)\ __## NS ## union_type_field(((ID) - 1), t__tmp)\ static inline NS ## generic_t N ## _ ## NK ## _get(N ## _table_t t__tmp)\ __## NS ## table_field(NS ## generic_t, ID, t__tmp, r)\ static inline T ## _union_type_t N ## _ ## NK ## _type(N ## _table_t t__tmp)\ __## NS ## union_type_field(((ID) - 1), t__tmp)\ static inline NS ## generic_t N ## _ ## NK(N ## _table_t t__tmp)\ __## NS ## table_field(NS ## generic_t, ID, t__tmp, r)\ static inline int N ## _ ## NK ## _is_present(N ## _table_t t__tmp)\ __## NS ## field_present(ID, t__tmp)\ static inline T ## _union_t N ## _ ## NK ## _union(N ## _table_t t__tmp)\ { T ## _union_t u__tmp = { 0, 0 }; u__tmp.type = N ## _ ## NK ## _type_get(t__tmp);\ if (u__tmp.type == 0) return u__tmp; u__tmp.value = N ## _ ## NK ## _get(t__tmp); return u__tmp; }\ static inline NS ## string_t N ## _ ## NK ## _as_string(N ## _table_t t__tmp)\ { return NS ## string_cast_from_generic(N ## _ ## NK ## _get(t__tmp)); }\ #define __flatbuffers_define_union_vector_ops(NS, T)\ static inline size_t T ## _union_vec_len(T ## _union_vec_t uv__tmp)\ { return NS ## vec_len(uv__tmp.type); }\ static inline T ## _union_t T ## _union_vec_at(T ## _union_vec_t uv__tmp, size_t i__tmp)\ { T ## _union_t u__tmp = { 0, 0 }; size_t n__tmp = NS ## vec_len(uv__tmp.type);\ FLATCC_ASSERT(n__tmp > (i__tmp) && "index out of range"); u__tmp.type = uv__tmp.type[i__tmp];\ /* Unknown type is treated as NONE for schema evolution. */\ if (u__tmp.type == 0) return u__tmp;\ u__tmp.value = NS ## generic_vec_at(uv__tmp.value, i__tmp); return u__tmp; }\ static inline NS ## string_t T ## _union_vec_at_as_string(T ## _union_vec_t uv__tmp, size_t i__tmp)\ { return (NS ## string_t) NS ## generic_vec_at_as_string(uv__tmp.value, i__tmp); }\ #define __flatbuffers_define_union_vector(NS, T)\ typedef NS ## union_vec_t T ## _union_vec_t;\ typedef NS ## mutable_union_vec_t T ## _mutable_union_vec_t;\ static inline T ## _mutable_union_vec_t T ## _mutable_union_vec_cast(T ## _union_vec_t u__tmp)\ { return NS ## mutable_union_vec_cast(u__tmp); }\ __## NS ## define_union_vector_ops(NS, T) #define __flatbuffers_define_union(NS, T)\ typedef NS ## union_t T ## _union_t;\ typedef NS ## mutable_union_t T ## _mutable_union_t;\ static inline T ## _mutable_union_t T ## _mutable_union_cast(T ## _union_t u__tmp)\ { return NS ## mutable_union_cast(u__tmp); }\ __## NS ## define_union_vector(NS, T) #define __flatbuffers_define_union_vector_field(NS, ID, N, NK, T, r)\ __## NS ## define_vector_field(ID - 1, N, NK ## _type, T ## _vec_t, r)\ __## NS ## define_vector_field(ID, N, NK, flatbuffers_generic_vec_t, r)\ static inline T ## _union_vec_t N ## _ ## NK ## _union(N ## _table_t t__tmp)\ { T ## _union_vec_t uv__tmp; uv__tmp.type = N ## _ ## NK ## _type_get(t__tmp);\ uv__tmp.value = N ## _ ## NK(t__tmp);\ FLATCC_ASSERT(NS ## vec_len(uv__tmp.type) == NS ## vec_len(uv__tmp.value)\ && "union vector type length mismatch"); return uv__tmp; } #include static const size_t flatbuffers_not_found = (size_t)-1; static const size_t flatbuffers_end = (size_t)-1; #define __flatbuffers_identity(n) (n) #define __flatbuffers_min(a, b) ((a) < (b) ? (a) : (b)) /* Subtraction doesn't work for unsigned types. */ #define __flatbuffers_scalar_cmp(x, y, n) ((x) < (y) ? -1 : (x) > (y)) static inline int __flatbuffers_string_n_cmp(flatbuffers_string_t v, const char *s, size_t n) { size_t nv = flatbuffers_string_len(v); int x = strncmp(v, s, nv < n ? nv : n); return x != 0 ? x : nv < n ? -1 : nv > n; } /* `n` arg unused, but needed by string find macro expansion. */ static inline int __flatbuffers_string_cmp(flatbuffers_string_t v, const char *s, size_t n) { (void)n; return strcmp(v, s); } /* A = identity if searching scalar vectors rather than key fields. */ /* Returns lowest matching index or not_found. */ #define __flatbuffers_find_by_field(A, V, E, L, K, Kn, T, D)\ { T v__tmp; size_t a__tmp = 0, b__tmp, m__tmp; if (!(b__tmp = L(V))) { return flatbuffers_not_found; }\ --b__tmp;\ while (a__tmp < b__tmp) {\ m__tmp = a__tmp + ((b__tmp - a__tmp) >> 1);\ v__tmp = A(E(V, m__tmp));\ if ((D(v__tmp, (K), (Kn))) < 0) {\ a__tmp = m__tmp + 1;\ } else {\ b__tmp = m__tmp;\ }\ }\ if (a__tmp == b__tmp) {\ v__tmp = A(E(V, a__tmp));\ if (D(v__tmp, (K), (Kn)) == 0) {\ return a__tmp;\ }\ }\ return flatbuffers_not_found;\ } #define __flatbuffers_find_by_scalar_field(A, V, E, L, K, T)\ __flatbuffers_find_by_field(A, V, E, L, K, 0, T, __flatbuffers_scalar_cmp) #define __flatbuffers_find_by_string_field(A, V, E, L, K)\ __flatbuffers_find_by_field(A, V, E, L, K, 0, flatbuffers_string_t, __flatbuffers_string_cmp) #define __flatbuffers_find_by_string_n_field(A, V, E, L, K, Kn)\ __flatbuffers_find_by_field(A, V, E, L, K, Kn, flatbuffers_string_t, __flatbuffers_string_n_cmp) #define __flatbuffers_define_find_by_scalar_field(N, NK, TK)\ static inline size_t N ## _vec_find_by_ ## NK(N ## _vec_t vec__tmp, TK key__tmp)\ __flatbuffers_find_by_scalar_field(N ## _ ## NK, vec__tmp, N ## _vec_at, N ## _vec_len, key__tmp, TK) #define __flatbuffers_define_scalar_find(N, T)\ static inline size_t N ## _vec_find(N ## _vec_t vec__tmp, T key__tmp)\ __flatbuffers_find_by_scalar_field(__flatbuffers_identity, vec__tmp, N ## _vec_at, N ## _vec_len, key__tmp, T) #define __flatbuffers_define_find_by_string_field(N, NK) \ /* Note: find only works on vectors sorted by this field. */\ static inline size_t N ## _vec_find_by_ ## NK(N ## _vec_t vec__tmp, const char *s__tmp)\ __flatbuffers_find_by_string_field(N ## _ ## NK, vec__tmp, N ## _vec_at, N ## _vec_len, s__tmp)\ static inline size_t N ## _vec_find_n_by_ ## NK(N ## _vec_t vec__tmp, const char *s__tmp, size_t n__tmp)\ __flatbuffers_find_by_string_n_field(N ## _ ## NK, vec__tmp, N ## _vec_at, N ## _vec_len, s__tmp, n__tmp) #define __flatbuffers_define_default_find_by_scalar_field(N, NK, TK)\ static inline size_t N ## _vec_find(N ## _vec_t vec__tmp, TK key__tmp)\ { return N ## _vec_find_by_ ## NK(vec__tmp, key__tmp); } #define __flatbuffers_define_default_find_by_string_field(N, NK) \ static inline size_t N ## _vec_find(N ## _vec_t vec__tmp, const char *s__tmp)\ { return N ## _vec_find_by_ ## NK(vec__tmp, s__tmp); }\ static inline size_t N ## _vec_find_n(N ## _vec_t vec__tmp, const char *s__tmp, size_t n__tmp)\ { return N ## _vec_find_n_by_ ## NK(vec__tmp, s__tmp, n__tmp); } /* A = identity if searching scalar vectors rather than key fields. */ /* Returns lowest matching index or not_found. */ #define __flatbuffers_scan_by_field(b, e, A, V, E, L, K, Kn, T, D)\ { T v__tmp; size_t i__tmp;\ for (i__tmp = b; i__tmp < e; ++i__tmp) {\ v__tmp = A(E(V, i__tmp));\ if (D(v__tmp, (K), (Kn)) == 0) {\ return i__tmp;\ }\ }\ return flatbuffers_not_found;\ } #define __flatbuffers_rscan_by_field(b, e, A, V, E, L, K, Kn, T, D)\ { T v__tmp; size_t i__tmp = e;\ while (i__tmp-- > b) {\ v__tmp = A(E(V, i__tmp));\ if (D(v__tmp, (K), (Kn)) == 0) {\ return i__tmp;\ }\ }\ return flatbuffers_not_found;\ } #define __flatbuffers_scan_by_scalar_field(b, e, A, V, E, L, K, T)\ __flatbuffers_scan_by_field(b, e, A, V, E, L, K, 0, T, __flatbuffers_scalar_cmp) #define __flatbuffers_scan_by_string_field(b, e, A, V, E, L, K)\ __flatbuffers_scan_by_field(b, e, A, V, E, L, K, 0, flatbuffers_string_t, __flatbuffers_string_cmp) #define __flatbuffers_scan_by_string_n_field(b, e, A, V, E, L, K, Kn)\ __flatbuffers_scan_by_field(b, e, A, V, E, L, K, Kn, flatbuffers_string_t, __flatbuffers_string_n_cmp) #define __flatbuffers_rscan_by_scalar_field(b, e, A, V, E, L, K, T)\ __flatbuffers_rscan_by_field(b, e, A, V, E, L, K, 0, T, __flatbuffers_scalar_cmp) #define __flatbuffers_rscan_by_string_field(b, e, A, V, E, L, K)\ __flatbuffers_rscan_by_field(b, e, A, V, E, L, K, 0, flatbuffers_string_t, __flatbuffers_string_cmp) #define __flatbuffers_rscan_by_string_n_field(b, e, A, V, E, L, K, Kn)\ __flatbuffers_rscan_by_field(b, e, A, V, E, L, K, Kn, flatbuffers_string_t, __flatbuffers_string_n_cmp) #define __flatbuffers_define_scan_by_scalar_field(N, NK, T)\ static inline size_t N ## _vec_scan_by_ ## NK(N ## _vec_t vec__tmp, T key__tmp)\ __flatbuffers_scan_by_scalar_field(0, N ## _vec_len(vec__tmp), N ## _ ## NK ## _get, vec__tmp, N ## _vec_at, N ## _vec_len, key__tmp, T)\ static inline size_t N ## _vec_scan_ex_by_ ## NK(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, T key__tmp)\ __flatbuffers_scan_by_scalar_field(begin__tmp, __flatbuffers_min(end__tmp, N ## _vec_len(vec__tmp)), N ## _ ## NK ## _get, vec__tmp, N ## _vec_at, N ## _vec_len, key__tmp, T)\ static inline size_t N ## _vec_rscan_by_ ## NK(N ## _vec_t vec__tmp, T key__tmp)\ __flatbuffers_rscan_by_scalar_field(0, N ## _vec_len(vec__tmp), N ## _ ## NK ## _get, vec__tmp, N ## _vec_at, N ## _vec_len, key__tmp, T)\ static inline size_t N ## _vec_rscan_ex_by_ ## NK(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, T key__tmp)\ __flatbuffers_rscan_by_scalar_field(begin__tmp, __flatbuffers_min(end__tmp, N ## _vec_len(vec__tmp)), N ## _ ## NK ## _get, vec__tmp, N ## _vec_at, N ## _vec_len, key__tmp, T) #define __flatbuffers_define_scalar_scan(N, T)\ static inline size_t N ## _vec_scan(N ## _vec_t vec__tmp, T key__tmp)\ __flatbuffers_scan_by_scalar_field(0, N ## _vec_len(vec__tmp), __flatbuffers_identity, vec__tmp, N ## _vec_at, N ## _vec_len, key__tmp, T)\ static inline size_t N ## _vec_scan_ex(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, T key__tmp)\ __flatbuffers_scan_by_scalar_field(begin__tmp, __flatbuffers_min(end__tmp, N ## _vec_len(vec__tmp)), __flatbuffers_identity, vec__tmp, N ## _vec_at, N ## _vec_len, key__tmp, T)\ static inline size_t N ## _vec_rscan(N ## _vec_t vec__tmp, T key__tmp)\ __flatbuffers_rscan_by_scalar_field(0, N ## _vec_len(vec__tmp), __flatbuffers_identity, vec__tmp, N ## _vec_at, N ## _vec_len, key__tmp, T)\ static inline size_t N ## _vec_rscan_ex(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, T key__tmp)\ __flatbuffers_rscan_by_scalar_field(begin__tmp, __flatbuffers_min(end__tmp, N ## _vec_len(vec__tmp)), __flatbuffers_identity, vec__tmp, N ## _vec_at, N ## _vec_len, key__tmp, T) #define __flatbuffers_define_scan_by_string_field(N, NK) \ static inline size_t N ## _vec_scan_by_ ## NK(N ## _vec_t vec__tmp, const char *s__tmp)\ __flatbuffers_scan_by_string_field(0, N ## _vec_len(vec__tmp), N ## _ ## NK ## _get, vec__tmp, N ## _vec_at, N ## _vec_len, s__tmp)\ static inline size_t N ## _vec_scan_n_by_ ## NK(N ## _vec_t vec__tmp, const char *s__tmp, size_t n__tmp)\ __flatbuffers_scan_by_string_n_field(0, N ## _vec_len(vec__tmp), N ## _ ## NK ## _get, vec__tmp, N ## _vec_at, N ## _vec_len, s__tmp, n__tmp)\ static inline size_t N ## _vec_scan_ex_by_ ## NK(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, const char *s__tmp)\ __flatbuffers_scan_by_string_field(begin__tmp, __flatbuffers_min(end__tmp, N ## _vec_len(vec__tmp)), N ## _ ## NK ## _get, vec__tmp, N ## _vec_at, N ## _vec_len, s__tmp)\ static inline size_t N ## _vec_scan_ex_n_by_ ## NK(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, const char *s__tmp, size_t n__tmp)\ __flatbuffers_scan_by_string_n_field(begin__tmp, __flatbuffers_min( end__tmp, N ## _vec_len(vec__tmp)), N ## _ ## NK ## _get, vec__tmp, N ## _vec_at, N ## _vec_len, s__tmp, n__tmp)\ static inline size_t N ## _vec_rscan_by_ ## NK(N ## _vec_t vec__tmp, const char *s__tmp)\ __flatbuffers_rscan_by_string_field(0, N ## _vec_len(vec__tmp), N ## _ ## NK ## _get, vec__tmp, N ## _vec_at, N ## _vec_len, s__tmp)\ static inline size_t N ## _vec_rscan_n_by_ ## NK(N ## _vec_t vec__tmp, const char *s__tmp, size_t n__tmp)\ __flatbuffers_rscan_by_string_n_field(0, N ## _vec_len(vec__tmp), N ## _ ## NK ## _get, vec__tmp, N ## _vec_at, N ## _vec_len, s__tmp, n__tmp)\ static inline size_t N ## _vec_rscan_ex_by_ ## NK(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, const char *s__tmp)\ __flatbuffers_rscan_by_string_field(begin__tmp, __flatbuffers_min(end__tmp, N ## _vec_len(vec__tmp)), N ## _ ## NK ## _get, vec__tmp, N ## _vec_at, N ## _vec_len, s__tmp)\ static inline size_t N ## _vec_rscan_ex_n_by_ ## NK(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, const char *s__tmp, size_t n__tmp)\ __flatbuffers_rscan_by_string_n_field(begin__tmp, __flatbuffers_min( end__tmp, N ## _vec_len(vec__tmp)), N ## _ ## NK ## _get, vec__tmp, N ## _vec_at, N ## _vec_len, s__tmp, n__tmp) #define __flatbuffers_define_default_scan_by_scalar_field(N, NK, TK)\ static inline size_t N ## _vec_scan(N ## _vec_t vec__tmp, TK key__tmp)\ { return N ## _vec_scan_by_ ## NK(vec__tmp, key__tmp); }\ static inline size_t N ## _vec_scan_ex(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, TK key__tmp)\ { return N ## _vec_scan_ex_by_ ## NK(vec__tmp, begin__tmp, end__tmp, key__tmp); }\ static inline size_t N ## _vec_rscan(N ## _vec_t vec__tmp, TK key__tmp)\ { return N ## _vec_rscan_by_ ## NK(vec__tmp, key__tmp); }\ static inline size_t N ## _vec_rscan_ex(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, TK key__tmp)\ { return N ## _vec_rscan_ex_by_ ## NK(vec__tmp, begin__tmp, end__tmp, key__tmp); } #define __flatbuffers_define_default_scan_by_string_field(N, NK) \ static inline size_t N ## _vec_scan(N ## _vec_t vec__tmp, const char *s__tmp)\ { return N ## _vec_scan_by_ ## NK(vec__tmp, s__tmp); }\ static inline size_t N ## _vec_scan_n(N ## _vec_t vec__tmp, const char *s__tmp, size_t n__tmp)\ { return N ## _vec_scan_n_by_ ## NK(vec__tmp, s__tmp, n__tmp); }\ static inline size_t N ## _vec_scan_ex(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, const char *s__tmp)\ { return N ## _vec_scan_ex_by_ ## NK(vec__tmp, begin__tmp, end__tmp, s__tmp); }\ static inline size_t N ## _vec_scan_ex_n(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, const char *s__tmp, size_t n__tmp)\ { return N ## _vec_scan_ex_n_by_ ## NK(vec__tmp, begin__tmp, end__tmp, s__tmp, n__tmp); }\ static inline size_t N ## _vec_rscan(N ## _vec_t vec__tmp, const char *s__tmp)\ { return N ## _vec_rscan_by_ ## NK(vec__tmp, s__tmp); }\ static inline size_t N ## _vec_rscan_n(N ## _vec_t vec__tmp, const char *s__tmp, size_t n__tmp)\ { return N ## _vec_rscan_n_by_ ## NK(vec__tmp, s__tmp, n__tmp); }\ static inline size_t N ## _vec_rscan_ex(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, const char *s__tmp)\ { return N ## _vec_rscan_ex_by_ ## NK(vec__tmp, begin__tmp, end__tmp, s__tmp); }\ static inline size_t N ## _vec_rscan_ex_n(N ## _vec_t vec__tmp, size_t begin__tmp, size_t end__tmp, const char *s__tmp, size_t n__tmp)\ { return N ## _vec_rscan_ex_n_by_ ## NK(vec__tmp, begin__tmp, end__tmp, s__tmp, n__tmp); } #define __flatbuffers_heap_sort(N, X, A, E, L, TK, TE, D, S)\ static inline void __ ## N ## X ## __heap_sift_down(\ N ## _mutable_vec_t vec__tmp, size_t start__tmp, size_t end__tmp)\ { size_t child__tmp, root__tmp; TK v1__tmp, v2__tmp, vroot__tmp;\ root__tmp = start__tmp;\ while ((root__tmp << 1) <= end__tmp) {\ child__tmp = root__tmp << 1;\ if (child__tmp < end__tmp) {\ v1__tmp = A(E(vec__tmp, child__tmp));\ v2__tmp = A(E(vec__tmp, child__tmp + 1));\ if (D(v1__tmp, v2__tmp) < 0) {\ child__tmp++;\ }\ }\ vroot__tmp = A(E(vec__tmp, root__tmp));\ v1__tmp = A(E(vec__tmp, child__tmp));\ if (D(vroot__tmp, v1__tmp) < 0) {\ S(vec__tmp, root__tmp, child__tmp, TE);\ root__tmp = child__tmp;\ } else {\ return;\ }\ }\ }\ static inline void __ ## N ## X ## __heap_sort(N ## _mutable_vec_t vec__tmp)\ { size_t start__tmp, end__tmp, size__tmp;\ size__tmp = L(vec__tmp); if (size__tmp == 0) return; end__tmp = size__tmp - 1; start__tmp = size__tmp >> 1;\ do { __ ## N ## X ## __heap_sift_down(vec__tmp, start__tmp, end__tmp); } while (start__tmp--);\ while (end__tmp > 0) { \ S(vec__tmp, 0, end__tmp, TE);\ __ ## N ## X ## __heap_sift_down(vec__tmp, 0, --end__tmp); } } #define __flatbuffers_define_sort_by_field(N, NK, TK, TE, D, S)\ __flatbuffers_heap_sort(N, _sort_by_ ## NK, N ## _ ## NK ## _get, N ## _vec_at, N ## _vec_len, TK, TE, D, S)\ static inline void N ## _vec_sort_by_ ## NK(N ## _mutable_vec_t vec__tmp)\ { __ ## N ## _sort_by_ ## NK ## __heap_sort(vec__tmp); } #define __flatbuffers_define_sort(N, TK, TE, D, S)\ __flatbuffers_heap_sort(N, , __flatbuffers_identity, N ## _vec_at, N ## _vec_len, TK, TE, D, S)\ static inline void N ## _vec_sort(N ## _mutable_vec_t vec__tmp) { __ ## N ## __heap_sort(vec__tmp); } #define __flatbuffers_scalar_diff(x, y) ((x) < (y) ? -1 : (x) > (y)) #define __flatbuffers_string_diff(x, y) __flatbuffers_string_n_cmp((x), (const char *)(y), flatbuffers_string_len(y)) #define __flatbuffers_value_swap(vec, a, b, TE) { TE x__tmp = vec[b]; vec[b] = vec[a]; vec[a] = x__tmp; } #define __flatbuffers_uoffset_swap(vec, a, b, TE)\ { TE ta__tmp, tb__tmp, d__tmp;\ d__tmp = (TE)((a - b) * sizeof(vec[0]));\ ta__tmp = __flatbuffers_uoffset_read_from_pe(vec + b) - d__tmp;\ tb__tmp = __flatbuffers_uoffset_read_from_pe(vec + a) + d__tmp;\ __flatbuffers_uoffset_write_to_pe(vec + a, ta__tmp);\ __flatbuffers_uoffset_write_to_pe(vec + b, tb__tmp); } #define __flatbuffers_scalar_swap(vec, a, b, TE) __flatbuffers_value_swap(vec, a, b, TE) #define __flatbuffers_string_swap(vec, a, b, TE) __flatbuffers_uoffset_swap(vec, a, b, TE) #define __flatbuffers_struct_swap(vec, a, b, TE) __flatbuffers_value_swap(vec, a, b, TE) #define __flatbuffers_table_swap(vec, a, b, TE) __flatbuffers_uoffset_swap(vec, a, b, TE) #define __flatbuffers_define_struct_sort_by_scalar_field(N, NK, TK, TE)\ __flatbuffers_define_sort_by_field(N, NK, TK, TE, __flatbuffers_scalar_diff, __flatbuffers_struct_swap) #define __flatbuffers_define_table_sort_by_scalar_field(N, NK, TK)\ __flatbuffers_define_sort_by_field(N, NK, TK, flatbuffers_uoffset_t, __flatbuffers_scalar_diff, __flatbuffers_table_swap) #define __flatbuffers_define_table_sort_by_string_field(N, NK)\ __flatbuffers_define_sort_by_field(N, NK, flatbuffers_string_t, flatbuffers_uoffset_t, __flatbuffers_string_diff, __flatbuffers_table_swap) #define __flatbuffers_define_scalar_sort(N, T) __flatbuffers_define_sort(N, T, T, __flatbuffers_scalar_diff, __flatbuffers_scalar_swap) #define __flatbuffers_define_string_sort() __flatbuffers_define_sort(flatbuffers_string, flatbuffers_string_t, flatbuffers_uoffset_t, __flatbuffers_string_diff, __flatbuffers_string_swap) #define __flatbuffers_sort_vector_field(N, NK, T, t)\ { T ## _mutable_vec_t v__tmp = (T ## _mutable_vec_t) N ## _ ## NK ## _get(t);\ if (v__tmp) T ## _vec_sort(v__tmp); } #define __flatbuffers_sort_table_field(N, NK, T, t)\ { T ## _sort((T ## _mutable_table_t)N ## _ ## NK ## _get(t)); } #define __flatbuffers_sort_union_field(N, NK, T, t)\ { T ## _sort(T ## _mutable_union_cast(N ## _ ## NK ## _union(t))); } #define __flatbuffers_sort_table_vector_field_elements(N, NK, T, t)\ { T ## _vec_t v__tmp = N ## _ ## NK ## _get(t); size_t i__tmp, n__tmp;\ n__tmp = T ## _vec_len(v__tmp); for (i__tmp = 0; i__tmp < n__tmp; ++i__tmp) {\ T ## _sort((T ## _mutable_table_t)T ## _vec_at(v__tmp, i__tmp)); }} #define __flatbuffers_sort_union_vector_field_elements(N, NK, T, t)\ { T ## _union_vec_t v__tmp = N ## _ ## NK ## _union(t); size_t i__tmp, n__tmp;\ n__tmp = T ## _union_vec_len(v__tmp); for (i__tmp = 0; i__tmp < n__tmp; ++i__tmp) {\ T ## _sort(T ## _mutable_union_cast(T ## _union_vec_at(v__tmp, i__tmp))); }} #define __flatbuffers_define_scalar_vector(N, T)\ typedef const T *N ## _vec_t;\ typedef T *N ## _mutable_vec_t;\ __flatbuffers_define_scalar_vec_len(N)\ __flatbuffers_define_scalar_vec_at(N, T)\ __flatbuffers_define_scalar_find(N, T)\ __flatbuffers_define_scalar_scan(N, T)\ __flatbuffers_define_scalar_sort(N, T) #define __flatbuffers_define_integer_type(N, T, W)\ __flatcc_define_integer_accessors(N, T, W, flatbuffers_endian)\ __flatbuffers_define_scalar_vector(N, T) __flatbuffers_define_scalar_vector(flatbuffers_bool, flatbuffers_bool_t) __flatbuffers_define_scalar_vector(flatbuffers_char, char) __flatbuffers_define_scalar_vector(flatbuffers_uint8, uint8_t) __flatbuffers_define_scalar_vector(flatbuffers_int8, int8_t) __flatbuffers_define_scalar_vector(flatbuffers_uint16, uint16_t) __flatbuffers_define_scalar_vector(flatbuffers_int16, int16_t) __flatbuffers_define_scalar_vector(flatbuffers_uint32, uint32_t) __flatbuffers_define_scalar_vector(flatbuffers_int32, int32_t) __flatbuffers_define_scalar_vector(flatbuffers_uint64, uint64_t) __flatbuffers_define_scalar_vector(flatbuffers_int64, int64_t) __flatbuffers_define_scalar_vector(flatbuffers_float, float) __flatbuffers_define_scalar_vector(flatbuffers_double, double) __flatbuffers_define_scalar_vector(flatbuffers_union_type, flatbuffers_union_type_t) static inline size_t flatbuffers_string_vec_find(flatbuffers_string_vec_t vec, const char *s) __flatbuffers_find_by_string_field(__flatbuffers_identity, vec, flatbuffers_string_vec_at, flatbuffers_string_vec_len, s) static inline size_t flatbuffers_string_vec_find_n(flatbuffers_string_vec_t vec, const char *s, size_t n) __flatbuffers_find_by_string_n_field(__flatbuffers_identity, vec, flatbuffers_string_vec_at, flatbuffers_string_vec_len, s, n) static inline size_t flatbuffers_string_vec_scan(flatbuffers_string_vec_t vec, const char *s) __flatbuffers_scan_by_string_field(0, flatbuffers_string_vec_len(vec), __flatbuffers_identity, vec, flatbuffers_string_vec_at, flatbuffers_string_vec_len, s) static inline size_t flatbuffers_string_vec_scan_n(flatbuffers_string_vec_t vec, const char *s, size_t n) __flatbuffers_scan_by_string_n_field(0, flatbuffers_string_vec_len(vec), __flatbuffers_identity, vec, flatbuffers_string_vec_at, flatbuffers_string_vec_len, s, n) static inline size_t flatbuffers_string_vec_scan_ex(flatbuffers_string_vec_t vec, size_t begin, size_t end, const char *s) __flatbuffers_scan_by_string_field(begin, __flatbuffers_min(end, flatbuffers_string_vec_len(vec)), __flatbuffers_identity, vec, flatbuffers_string_vec_at, flatbuffers_string_vec_len, s) static inline size_t flatbuffers_string_vec_scan_ex_n(flatbuffers_string_vec_t vec, size_t begin, size_t end, const char *s, size_t n) __flatbuffers_scan_by_string_n_field(begin, __flatbuffers_min(end, flatbuffers_string_vec_len(vec)), __flatbuffers_identity, vec, flatbuffers_string_vec_at, flatbuffers_string_vec_len, s, n) static inline size_t flatbuffers_string_vec_rscan(flatbuffers_string_vec_t vec, const char *s) __flatbuffers_rscan_by_string_field(0, flatbuffers_string_vec_len(vec), __flatbuffers_identity, vec, flatbuffers_string_vec_at, flatbuffers_string_vec_len, s) static inline size_t flatbuffers_string_vec_rscan_n(flatbuffers_string_vec_t vec, const char *s, size_t n) __flatbuffers_rscan_by_string_n_field(0, flatbuffers_string_vec_len(vec), __flatbuffers_identity, vec, flatbuffers_string_vec_at, flatbuffers_string_vec_len, s, n) static inline size_t flatbuffers_string_vec_rscan_ex(flatbuffers_string_vec_t vec, size_t begin, size_t end, const char *s) __flatbuffers_rscan_by_string_field(begin, __flatbuffers_min(end, flatbuffers_string_vec_len(vec)), __flatbuffers_identity, vec, flatbuffers_string_vec_at, flatbuffers_string_vec_len, s) static inline size_t flatbuffers_string_vec_rscan_ex_n(flatbuffers_string_vec_t vec, size_t begin, size_t end, const char *s, size_t n) __flatbuffers_rscan_by_string_n_field(begin, __flatbuffers_min(end, flatbuffers_string_vec_len(vec)), __flatbuffers_identity, vec, flatbuffers_string_vec_at, flatbuffers_string_vec_len, s, n) __flatbuffers_define_string_sort() #define __flatbuffers_define_struct_scalar_fixed_array_field(N, NK, TK, T, L)\ static inline T N ## _ ## NK ## _get(N ## _struct_t t__tmp, size_t i__tmp)\ { if (!t__tmp || i__tmp >= L) return 0;\ return __flatbuffers_read_scalar(TK, &(t__tmp->NK[i__tmp])); }\ static inline const T *N ## _ ## NK ## _get_ptr(N ## _struct_t t__tmp)\ { return t__tmp ? t__tmp->NK : 0; }\ static inline size_t N ## _ ## NK ## _get_len(void) { return L; }\ static inline T N ## _ ## NK (N ## _struct_t t__tmp, size_t i__tmp)\ { return N ## _ ## NK ## _get(t__tmp, i__tmp); } #define __flatbuffers_define_struct_struct_fixed_array_field(N, NK, T, L)\ static inline T N ## _ ## NK ## _get(N ## _struct_t t__tmp, size_t i__tmp)\ { if (!t__tmp || i__tmp >= L) return 0; return t__tmp->NK + i__tmp; }static inline T N ## _ ## NK ## _get_ptr(N ## _struct_t t__tmp)\ { return t__tmp ? t__tmp->NK : 0; }\ static inline size_t N ## _ ## NK ## _get_len(void) { return L; }\ static inline T N ## _ ## NK(N ## _struct_t t__tmp, size_t i__tmp)\ { if (!t__tmp || i__tmp >= L) return 0; return t__tmp->NK + i__tmp; } #define __flatbuffers_define_struct_scalar_field(N, NK, TK, T)\ static inline T N ## _ ## NK ## _get(N ## _struct_t t__tmp)\ { return t__tmp ? __flatbuffers_read_scalar(TK, &(t__tmp->NK)) : 0; }\ static inline const T *N ## _ ## NK ## _get_ptr(N ## _struct_t t__tmp)\ { return t__tmp ? &(t__tmp->NK) : 0; }\ static inline T N ## _ ## NK (N ## _struct_t t__tmp)\ { return t__tmp ? __flatbuffers_read_scalar(TK, &(t__tmp->NK)) : 0; }\ __flatbuffers_define_scan_by_scalar_field(N, NK, T) #define __flatbuffers_define_struct_struct_field(N, NK, T)\ static inline T N ## _ ## NK ## _get(N ## _struct_t t__tmp) { return t__tmp ? &(t__tmp->NK) : 0; }\ static inline T N ## _ ## NK (N ## _struct_t t__tmp) { return t__tmp ? &(t__tmp->NK) : 0; } /* If fid is null, the function returns true without testing as buffer is not expected to have any id. */ static inline int flatbuffers_has_identifier(const void *buffer, const char *fid) { flatbuffers_thash_t id, id2 = 0; if (fid == 0) { return 1; }; id2 = flatbuffers_type_hash_from_string(fid); id = __flatbuffers_thash_read_from_pe(((flatbuffers_uoffset_t *)buffer) + 1); return id2 == 0 || id == id2; } static inline int flatbuffers_has_type_hash(const void *buffer, flatbuffers_thash_t thash) { return thash == 0 || (__flatbuffers_thash_read_from_pe((flatbuffers_uoffset_t *)buffer + 1) == thash); } static inline flatbuffers_thash_t flatbuffers_get_type_hash(const void *buffer) { return __flatbuffers_thash_read_from_pe((flatbuffers_uoffset_t *)buffer + 1); } #define flatbuffers_verify_endian() flatbuffers_has_identifier("\x00\x00\x00\x00" "1234", "1234") static inline void *flatbuffers_read_size_prefix(void *b, size_t *size_out) { if (size_out) { *size_out = (size_t)__flatbuffers_uoffset_read_from_pe(b); } return (uint8_t *)b + sizeof(flatbuffers_uoffset_t); } /* Null file identifier accepts anything, otherwise fid should be 4 characters. */ #define __flatbuffers_read_root(T, K, buffer, fid)\ ((!buffer || !flatbuffers_has_identifier(buffer, fid)) ? 0 :\ ((T ## _ ## K ## t)(((uint8_t *)buffer) +\ __flatbuffers_uoffset_read_from_pe(buffer)))) #define __flatbuffers_read_typed_root(T, K, buffer, thash)\ ((!buffer || !flatbuffers_has_type_hash(buffer, thash)) ? 0 :\ ((T ## _ ## K ## t)(((uint8_t *)buffer) +\ __flatbuffers_uoffset_read_from_pe(buffer)))) #define __flatbuffers_nested_buffer_as_root(C, N, T, K)\ static inline T ## _ ## K ## t C ## _ ## N ## _as_root_with_identifier(C ## _ ## table_t t__tmp, const char *fid__tmp)\ { const uint8_t *buffer__tmp = C ## _ ## N(t__tmp); return __flatbuffers_read_root(T, K, buffer__tmp, fid__tmp); }\ static inline T ## _ ## K ## t C ## _ ## N ## _as_typed_root(C ## _ ## table_t t__tmp)\ { const uint8_t *buffer__tmp = C ## _ ## N(t__tmp); return __flatbuffers_read_root(T, K, buffer__tmp, C ## _ ## type_identifier); }\ static inline T ## _ ## K ## t C ## _ ## N ## _as_root(C ## _ ## table_t t__tmp)\ { const char *fid__tmp = T ## _file_identifier;\ const uint8_t *buffer__tmp = C ## _ ## N(t__tmp); return __flatbuffers_read_root(T, K, buffer__tmp, fid__tmp); } #define __flatbuffers_buffer_as_root(N, K)\ static inline N ## _ ## K ## t N ## _as_root_with_identifier(const void *buffer__tmp, const char *fid__tmp)\ { return __flatbuffers_read_root(N, K, buffer__tmp, fid__tmp); }\ static inline N ## _ ## K ## t N ## _as_root_with_type_hash(const void *buffer__tmp, flatbuffers_thash_t thash__tmp)\ { return __flatbuffers_read_typed_root(N, K, buffer__tmp, thash__tmp); }\ static inline N ## _ ## K ## t N ## _as_root(const void *buffer__tmp)\ { const char *fid__tmp = N ## _file_identifier;\ return __flatbuffers_read_root(N, K, buffer__tmp, fid__tmp); }\ static inline N ## _ ## K ## t N ## _as_typed_root(const void *buffer__tmp)\ { return __flatbuffers_read_typed_root(N, K, buffer__tmp, N ## _type_hash); } #define __flatbuffers_struct_as_root(N) __flatbuffers_buffer_as_root(N, struct_) #define __flatbuffers_table_as_root(N) __flatbuffers_buffer_as_root(N, table_) #include "flatcc_epilogue.h" #endif /* FLATBUFFERS_COMMON_H */