ccv_nnc_tensor

Bug Summary

File:	nnc/ccv_nnc_tensor_io.c
Warning:	line 232, column 22 Although the value stored to 'tensor' is used in the enclosing expression, the value is never actually read from 'tensor'

Annotated Source Code

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clang -cc1 -cc1 -triple x86_64-unknown-linux-gnu -analyze -disable-free -clear-ast-before-backend -disable-llvm-verifier -discard-value-names -main-file-name ccv_nnc_tensor_io.c -analyzer-checker=core -analyzer-checker=apiModeling -analyzer-checker=unix -analyzer-checker=deadcode -analyzer-checker=security.insecureAPI.UncheckedReturn -analyzer-checker=security.insecureAPI.getpw -analyzer-checker=security.insecureAPI.gets -analyzer-checker=security.insecureAPI.mktemp -analyzer-checker=security.insecureAPI.mkstemp -analyzer-checker=security.insecureAPI.vfork -analyzer-checker=nullability.NullPassedToNonnull -analyzer-checker=nullability.NullReturnedFromNonnull -analyzer-output plist -w -setup-static-analyzer -mrelocation-model pic -pic-level 2 -pic-is-pie -mframe-pointer=none -fmath-errno -ffp-contract=on -fno-rounding-math -mconstructor-aliases -funwind-tables=2 -target-cpu x86-64 -target-feature +sse2 -tune-cpu generic -debugger-tuning=gdb -fdebug-compilation-dir=/home/liu/actions-runner/_work/ccv/ccv/lib/nnc -fcoverage-compilation-dir=/home/liu/actions-runner/_work/ccv/ccv/lib/nnc -resource-dir /usr/local/lib/clang/19 -I ../ -I /usr/local/cuda/include -D HAVE_CBLAS -D HAVE_LIBPNG -D HAVE_LIBJPEG -D HAVE_FFTW3 -D HAVE_PTHREAD -D HAVE_LIBLINEAR -D HAVE_TESSERACT -D HAVE_AVCODEC -D HAVE_AVFORMAT -D HAVE_AVUTIL -D HAVE_SWSCALE -D HAVE_SSE2 -D HAVE_GSL -D HAVE_CUDA -D HAVE_CUDNN -D HAVE_NCCL -D USE_SYSTEM_CUB -I /usr/local/include -internal-isystem /usr/local/lib/clang/19/include -internal-isystem /usr/local/include -internal-isystem /usr/lib/gcc/x86_64-linux-gnu/12/../../../../x86_64-linux-gnu/include -internal-externc-isystem /usr/include/x86_64-linux-gnu -internal-externc-isystem /include -internal-externc-isystem /usr/include -O3 -ferror-limit 19 -fgnuc-version=4.2.1 -fskip-odr-check-in-gmf -vectorize-loops -vectorize-slp -analyzer-output=html -faddrsig -D__GCC_HAVE_DWARF2_CFI_ASM=1 -o /home/liu/actions-runner/_work/ccv/ccv/_analyze/2024-10-21-122132-109054-1 -x c ccv_nnc_tensor_io.c

1	#include "ccv_nnc.h"
2	#include "ccv_nnc_easy.h"
3	#include "ccv_nnc_internal.h"
4	#include "ccv_internal.h"
5	#include "_ccv_nnc_symbolic_graph.h"
6	#include "3rdparty/sqlite3/sqlite3.h"
7	#ifdef HAVE_CUDA1
8	#include "gpu/ccv_nnc_compat.h"
9	#elif HAVE_MPS
10	#include "mps/ccv_nnc_mps.h"
11	#endif
12
13	#ifdef NDEBUG
14	#define SQLITE_ENFORCE(stmt)((void) sizeof ((stmt) ? 1 : 0), __extension__ ({ if (stmt) ; else __assert_fail ("stmt", "ccv_nnc_tensor_io.c", 14, __extension__ __PRETTY_FUNCTION__); })) (void)(stmt)
15	#else
16	#define SQLITE_ENFORCEassert assert
17	#endif
18
19	// MARK - Level-1 API
20
21	int ccv_nnc_tensor_write(const ccv_nnc_tensor_t* const tensor, void* const handle, const char* const name, const ccv_nnc_tensor_io_option_t* const options)
22	{
23	assert(CCV_IS_TENSOR_CONTIGUOUS(tensor))((void) sizeof (((!(((int)(tensor)) & CCV_TENSOR_VIEW) \|\| (((ccv_nnc_tensor_view_t)tensor)->contiguous == 1))) ? 1 : 0), __extension__ ({ if ((!(((int)(tensor)) & CCV_TENSOR_VIEW ) \|\| (((ccv_nnc_tensor_view_t)tensor)->contiguous == 1))) ; else __assert_fail ("CCV_IS_TENSOR_CONTIGUOUS(tensor)", "ccv_nnc_tensor_io.c" , 23, __extension__ __PRETTY_FUNCTION__); }));
24	assert(name)((void) sizeof ((name) ? 1 : 0), __extension__ ({ if (name) ; else __assert_fail ("name", "ccv_nnc_tensor_io.c", 24, __extension__ __PRETTY_FUNCTION__); }));
25	sqlite3* conn = (sqlite3*)handle;
26	if (!conn)
27	return CCV_IO_ERROR;
28	const char tensor_create_table_qs[] = "CREATE TABLE IF NOT EXISTS tensors "
29	"(name TEXT, type INTEGER, format INTEGER, datatype INTEGER, "
30	"dim BLOB, data BLOB, PRIMARY KEY (name))";
31	SQLITE_ENFORCE(SQLITE_OK == sqlite3_exec(conn, tensor_create_table_qs, 0, 0, 0))((void) sizeof ((0 == sqlite3_exec(conn, tensor_create_table_qs , 0, 0, 0)) ? 1 : 0), __extension__ ({ if (0 == sqlite3_exec( conn, tensor_create_table_qs, 0, 0, 0)) ; else __assert_fail ( "SQLITE_OK == sqlite3_exec(conn, tensor_create_table_qs, 0, 0, 0)" , "ccv_nnc_tensor_io.c", 31, __extension__ __PRETTY_FUNCTION__ ); }));
32	const char tensor_insert_qs[] =
33	"REPLACE INTO tensors "
34	"(name, type, format, datatype, dim, data) VALUES ("
35	"$name, $type, $format, $datatype, $dim, $data)";
36	sqlite3_stmt* tensor_insert_stmt = 0;
37	SQLITE_ENFORCE(SQLITE_OK == sqlite3_prepare_v2(conn, tensor_insert_qs, sizeof(tensor_insert_qs), &tensor_insert_stmt, 0))((void) sizeof ((0 == sqlite3_prepare_v2(conn, tensor_insert_qs , sizeof(tensor_insert_qs), &tensor_insert_stmt, 0)) ? 1 : 0), __extension__ ({ if (0 == sqlite3_prepare_v2(conn, tensor_insert_qs , sizeof(tensor_insert_qs), &tensor_insert_stmt, 0)) ; else __assert_fail ("SQLITE_OK == sqlite3_prepare_v2(conn, tensor_insert_qs, sizeof(tensor_insert_qs), &tensor_insert_stmt, 0)" , "ccv_nnc_tensor_io.c", 37, __extension__ __PRETTY_FUNCTION__ ); }));
38	sqlite3_bind_text(tensor_insert_stmt, 1, name, -1, 0);
39	ccv_nnc_tensor_param_t params = tensor->info;
40	const size_t data_size = ccv_nnc_tensor_data_size_without_padding(tensor->info);
41	unsigned char* workspace = 0;
42	unsigned int identifier = 0;
43	#ifdef HAVE_CUDA1
44	if (CCV_TENSOR_GET_MEMORY(tensor->info.type)((tensor->info.type) & 0x3) == CCV_TENSOR_GPU_MEMORY)
45	{
46	if (!options \|\| !options->encode)
47	{
48	workspace = ccmallocmalloc(data_size);
49	cumemcpy(workspace, CCV_TENSOR_CPU_MEMORY, tensor->data.u8, tensor->info.type, data_size);
50	sqlite3_bind_blob(tensor_insert_stmt, 6, workspace, data_size, 0);
51	} else {
52	workspace = ccmallocmalloc(data_size * 2 + 4);
53	cumemcpy(workspace, CCV_TENSOR_CPU_MEMORY, tensor->data.u8, tensor->info.type, data_size);
54	size_t encoded_size = data_size + 4;
55	if (options->encode(workspace, data_size, tensor->info.datatype, tensor->info.dim, ccv_nnc_tensor_nd(tensor->info.dim), options->context, workspace + data_size, &encoded_size, &params, &identifier))
56	sqlite3_bind_blob(tensor_insert_stmt, 6, workspace + data_size, encoded_size, 0);
57	else
58	sqlite3_bind_blob(tensor_insert_stmt, 6, workspace, data_size, 0);
59	}
60	} else {
61	if (!options \|\| !options->encode)
62	sqlite3_bind_blob(tensor_insert_stmt, 6, tensor->data.u8, data_size, 0);
63	else {
64	workspace = ccmallocmalloc(data_size + 4);
65	size_t encoded_size = data_size + 4;
66	if (options->encode(tensor->data.u8, data_size, tensor->info.datatype, tensor->info.dim, ccv_nnc_tensor_nd(tensor->info.dim), options->context, workspace, &encoded_size, &params, &identifier))
67	sqlite3_bind_blob(tensor_insert_stmt, 6, workspace, encoded_size, 0);
68	else
69	sqlite3_bind_blob(tensor_insert_stmt, 6, tensor->data.u8, data_size, 0);
70	}
71	}
72	#elif defined(HAVE_MPS)
73	if (CCV_TENSOR_GET_MEMORY(tensor->info.type)((tensor->info.type) & 0x3) == CCV_TENSOR_GPU_MEMORY)
74	{
75	if (!options \|\| !options->encode)
76	{
77	workspace = ccmallocmalloc(data_size);
78	mpmemcpy(workspace, 0, CCV_TENSOR_CPU_MEMORY, tensor->data.u8, tensor->dataof, tensor->info.type, data_size);
79	sqlite3_bind_blob(tensor_insert_stmt, 6, workspace, data_size, 0);
80	} else {
81	workspace = ccmallocmalloc(data_size * 2 + 4);
82	mpmemcpy(workspace, 0, CCV_TENSOR_CPU_MEMORY, tensor->data.u8, tensor->dataof, tensor->info.type, data_size);
83	size_t encoded_size = data_size + 4;
84	if (options->encode(workspace, data_size, tensor->info.datatype, tensor->info.dim, ccv_nnc_tensor_nd(tensor->info.dim), options->context, workspace + data_size, &encoded_size, &params, &identifier))
85	sqlite3_bind_blob(tensor_insert_stmt, 6, workspace + data_size, encoded_size, 0);
86	else
87	sqlite3_bind_blob(tensor_insert_stmt, 6, workspace, data_size, 0);
88	}
89	} else {
90	if (!options \|\| !options->encode)
91	sqlite3_bind_blob(tensor_insert_stmt, 6, tensor->data.u8, data_size, 0);
92	else {
93	workspace = ccmallocmalloc(data_size + 4); // Allocate extra 4 bytes in case we need to copy the QX tensor out.
94	size_t encoded_size = data_size + 4;
95	if (options->encode(tensor->data.u8, data_size, tensor->info.datatype, tensor->info.dim, ccv_nnc_tensor_nd(tensor->info.dim), options->context, workspace, &encoded_size, &params, &identifier))
96	sqlite3_bind_blob(tensor_insert_stmt, 6, workspace, encoded_size, 0);
97	else
98	sqlite3_bind_blob(tensor_insert_stmt, 6, tensor->data.u8, data_size, 0);
99	}
100	}
101	#else
102	if (!options \|\| !options->encode)
103	sqlite3_bind_blob(tensor_insert_stmt, 6, tensor->data.u8, data_size, 0);
104	else {
105	workspace = ccmallocmalloc(data_size + 4);
106	size_t encoded_size = data_size + 4;
107	if (options->encode(tensor->data.u8, data_size, tensor->info.datatype, tensor->info.dim, ccv_nnc_tensor_nd(tensor->info.dim), options->context, workspace, &encoded_size, &params, &identifier))
108	sqlite3_bind_blob(tensor_insert_stmt, 6, workspace, encoded_size, 0);
109	else
110	sqlite3_bind_blob(tensor_insert_stmt, 6, tensor->data.u8, data_size, 0);
111	}
112	#endif
113	sqlite3_bind_int64(tensor_insert_stmt, 2, ((sqlite_int64)identifier << 32) \| params.type);
114	sqlite3_bind_int(tensor_insert_stmt, 3, params.format);
115	sqlite3_bind_int64(tensor_insert_stmt, 4, ((sqlite_int64)params.reserved << 32) \| params.datatype);
116	sqlite3_bind_blob(tensor_insert_stmt, 5, params.dim, sizeof(params.dim), 0);
117	sqlite3_step(tensor_insert_stmt);
118	sqlite3_reset(tensor_insert_stmt);
119	sqlite3_clear_bindings(tensor_insert_stmt);
120	sqlite3_finalize(tensor_insert_stmt);
121	if (workspace)
122	free(workspace);
123	return CCV_IO_FINAL;
124	}
125
126	int ccv_nnc_tensor_read(void* const handle, const char* const name, const ccv_nnc_tensor_io_option_t* const options, const int flags, const ccv_nnc_tensor_param_t* const tensor_params_optional, ccv_nnc_tensor_t** const tensor_out)
127	{
128	assert(name)((void) sizeof ((name) ? 1 : 0), __extension__ ({ if (name) ; else __assert_fail ("name", "ccv_nnc_tensor_io.c", 128, __extension__ __PRETTY_FUNCTION__); }));
129	sqlite3* conn = (sqlite3*)handle;
130	if (!conn)
131	return CCV_IO_ERROR;
132	const char tensor_select_qs[] =
133	"SELECT data, type, format, datatype, dim FROM tensors WHERE name=$name";
134	sqlite3_stmt* tensor_select_stmt = 0;
135	if (SQLITE_OK0 != sqlite3_prepare_v2(conn, tensor_select_qs, sizeof(tensor_select_qs), &tensor_select_stmt, 0))
136	return CCV_IO_ERROR;
137	sqlite3_bind_text(tensor_select_stmt, 1, name, -1, 0);
138	if (SQLITE_ROW100 != sqlite3_step(tensor_select_stmt))
139	{
140	sqlite3_finalize(tensor_select_stmt);
141	return CCV_IO_ERROR;
142	}
143	ccv_nnc_tensor_t* tensor = *tensor_out;
144	ccv_nnc_tensor_param_t tensor_params;
145	int datatype = 0;
146	unsigned int identifier = 0;
147	if (!tensor) // If the tensor is not provided, we need to create one.
148	{
149	if (tensor_params_optional)
150	{
151	identifier = (sqlite3_column_int64(tensor_select_stmt, 1) >> 32) & 0xffffffff;
152	datatype = sqlite3_column_int64(tensor_select_stmt, 3) & 0xffffffff;
153	tensor_params = *tensor_params_optional;
154	assert(!(flags & CCV_NNC_TENSOR_READ_METADATA_ONLY))((void) sizeof ((!(flags & CCV_NNC_TENSOR_READ_METADATA_ONLY )) ? 1 : 0), __extension__ ({ if (!(flags & CCV_NNC_TENSOR_READ_METADATA_ONLY )) ; else __assert_fail ("!(flags & CCV_NNC_TENSOR_READ_METADATA_ONLY)" , "ccv_nnc_tensor_io.c", 154, __extension__ __PRETTY_FUNCTION__ ); }));
155	} else {
156	const sqlite_int64 type = sqlite3_column_int64(tensor_select_stmt, 1);
157	identifier = (type >> 32) & 0xffffffff;
158	tensor_params.type = (type & 0xffffffff);
159	tensor_params.format = sqlite3_column_int(tensor_select_stmt, 2);
160	const sqlite_int64 datatype_mix = sqlite3_column_int64(tensor_select_stmt, 3);
161	datatype = tensor_params.datatype = (datatype_mix & 0xffffffff);
162	tensor_params.reserved = (datatype_mix >> 32) & 0xffffffff;
163	const void* const dim = sqlite3_column_blob(tensor_select_stmt, 4);
164	memcpy(tensor_params.dim, dim, ccv_min(sizeof(tensor_params.dim), sqlite3_column_bytes(tensor_select_stmt, 4))({ typeof (sizeof(tensor_params.dim)) _a = (sizeof(tensor_params .dim)); typeof (sqlite3_column_bytes(tensor_select_stmt, 4)) _b = (sqlite3_column_bytes(tensor_select_stmt, 4)); (_a < _b ) ? _a : _b; }));
165	}
166	if (!options \|\| !options->decode)
167	{
168	if (flags & CCV_NNC_TENSOR_READ_METADATA_ONLY)
169	{
170	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, CCV_NO_DATA_ALLOC); // Set the data point to 1 so it is allocated without data.
171	assert(tensor->data.u8 == 0)((void) sizeof ((tensor->data.u8 == 0) ? 1 : 0), __extension__ ({ if (tensor->data.u8 == 0) ; else __assert_fail ("tensor->data.u8 == 0" , "ccv_nnc_tensor_io.c", 171, __extension__ __PRETTY_FUNCTION__ ); })); // Set it back to 0.
172	// Already done loading metadata, return.
173	sqlite3_reset(tensor_select_stmt);
174	sqlite3_clear_bindings(tensor_select_stmt);
175	sqlite3_finalize(tensor_select_stmt);
176	return CCV_IO_FINAL;
177	} else
178	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
179	} else {
180	assert(!(flags & CCV_NNC_TENSOR_READ_METADATA_ONLY))((void) sizeof ((!(flags & CCV_NNC_TENSOR_READ_METADATA_ONLY )) ? 1 : 0), __extension__ ({ if (!(flags & CCV_NNC_TENSOR_READ_METADATA_ONLY )) ; else __assert_fail ("!(flags & CCV_NNC_TENSOR_READ_METADATA_ONLY)" , "ccv_nnc_tensor_io.c", 180, __extension__ __PRETTY_FUNCTION__ ); }));
181	}
182	} else {
183	identifier = (sqlite3_column_int64(tensor_select_stmt, 1) >> 32) & 0xffffffff;
184	datatype = sqlite3_column_int(tensor_select_stmt, 3) & 0xffffffff;
185	tensor_params = tensor->info;
186	assert(!(flags & CCV_NNC_TENSOR_READ_METADATA_ONLY))((void) sizeof ((!(flags & CCV_NNC_TENSOR_READ_METADATA_ONLY )) ? 1 : 0), __extension__ ({ if (!(flags & CCV_NNC_TENSOR_READ_METADATA_ONLY )) ; else __assert_fail ("!(flags & CCV_NNC_TENSOR_READ_METADATA_ONLY)" , "ccv_nnc_tensor_io.c", 186, __extension__ __PRETTY_FUNCTION__ ); }));
187	}
188	const void* const data = sqlite3_column_blob(tensor_select_stmt, 0);
189	int dim[CCV_NNC_MAX_DIM_ALLOC(12)];
190	memcpy(dim, sqlite3_column_blob(tensor_select_stmt, 4), ccv_min(sizeof(dim), sqlite3_column_bytes(tensor_select_stmt, 4))({ typeof (sizeof(dim)) _a = (sizeof(dim)); typeof (sqlite3_column_bytes (tensor_select_stmt, 4)) _b = (sqlite3_column_bytes(tensor_select_stmt , 4)); (_a < _b) ? _a : _b; }));
191	const int nd = ccv_nnc_tensor_nd(dim);
192	if (datatype != tensor_params.datatype && CCV_GET_DATA_TYPE(tensor_params.datatype)((tensor_params.datatype) & 0xFF000) != CCV_QX)
193	{
194	// Only ever works for 16F to 32F or 32F to 16F transparently.
195	assert((datatype == CCV_16F && tensor_params.datatype == CCV_32F) \|\| (datatype == CCV_32F && tensor_params.datatype == CCV_16F))((void) sizeof (((datatype == CCV_16F && tensor_params .datatype == CCV_32F) \|\| (datatype == CCV_32F && tensor_params .datatype == CCV_16F)) ? 1 : 0), __extension__ ({ if ((datatype == CCV_16F && tensor_params.datatype == CCV_32F) \|\| ( datatype == CCV_32F && tensor_params.datatype == CCV_16F )) ; else __assert_fail ("(datatype == CCV_16F && tensor_params.datatype == CCV_32F) \|\| (datatype == CCV_32F && tensor_params.datatype == CCV_16F)" , "ccv_nnc_tensor_io.c", 195, __extension__ __PRETTY_FUNCTION__ ); }));
196	const size_t tensor_count = ccv_nnc_tensor_count(tensor_params);
197	ccv_nnc_tensor_param_t params = tensor_params;
198	params.datatype = datatype;
199	const size_t source_data_size = ccv_nnc_tensor_data_size(params);
200	#ifdef HAVE_CUDA1
201	if (CCV_TENSOR_GET_MEMORY(tensor_params.type)((tensor_params.type) & 0x3) == CCV_TENSOR_GPU_MEMORY)
202	{
203	const size_t data_size = ccv_nnc_tensor_data_size(tensor_params);
204	unsigned char* workspace;
205	unsigned char* copying;
206	size_t decoded_size = data_size;
207	if (!options \|\| !options->decode)
208	{
209	copying = workspace = ccmallocmalloc(data_size);
210	if (datatype == CCV_16F && tensor_params.datatype == CCV_32F)
211	ccv_half_precision_to_float((uint16_t)data, (float)workspace, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
212	else if (datatype == CCV_32F && tensor_params.datatype == CCV_16F)
213	ccv_float_to_half_precision((float)data, (uint16_t)workspace, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)); (_a < _b) ? _a : _b; }));
214	else
215	{ assert(0)((void) sizeof ((0) ? 1 : 0), __extension__ ({ if (0) ; else __assert_fail ("0", "ccv_nnc_tensor_io.c", 215, __extension__ __PRETTY_FUNCTION__ ); })); }
216	} else {
217	copying = workspace = ccmallocmalloc(data_size + source_data_size);
218	if (datatype == CCV_16F && tensor_params.datatype == CCV_32F)
219	{
220	decoded_size = source_data_size;
221	if (options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, workspace + data_size, &decoded_size))
222	{
223	// If we loaded quantized tensor, don't do the conversion.
224	if (CCV_GET_DATA_TYPE(tensor_out[0]->info.datatype)((tensor_out[0]->info.datatype) & 0xFF000) == CCV_QX)
225	copying = workspace + data_size;
226	else {
227	ccv_half_precision_to_float((uint16_t)(workspace + data_size), (float)workspace, ccv_min(tensor_count, ccv_min(source_data_size, decoded_size) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (({ typeof (source_data_size) _a = (source_data_size); typeof (decoded_size ) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(uint16_t )) _b = (({ typeof (source_data_size) _a = (source_data_size) ; typeof (decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
228	decoded_size = data_size;
229	}
230	} else {
231	if (!tensor)
232	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
	Although the value stored to 'tensor' is used in the enclosing expression, the value is never actually read from 'tensor'
233	ccv_half_precision_to_float((uint16_t)data, (float)workspace, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
234	decoded_size = data_size;
235	}
236	} else if (datatype == CCV_32F && tensor_params.datatype == CCV_16F) {
237	decoded_size = source_data_size;
238	if (options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, workspace + data_size, &decoded_size))
239	{
240	if (CCV_GET_DATA_TYPE(tensor_out[0]->info.datatype)((tensor_out[0]->info.datatype) & 0xFF000) == CCV_QX)
241	copying = workspace + data_size;
242	else {
243	ccv_float_to_half_precision((float)(workspace + data_size), (uint16_t)workspace, ccv_min(tensor_count, ccv_min(source_data_size, decoded_size) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (({ typeof (source_data_size) _a = (source_data_size); typeof (decoded_size ) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(float )) _b = (({ typeof (source_data_size) _a = (source_data_size) ; typeof (decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(float)); (_a < _b) ? _a : _b; }));
244	decoded_size = data_size;
245	}
246	} else {
247	if (!tensor)
248	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
249	ccv_float_to_half_precision((float)data, (uint16_t)workspace, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)); (_a < _b) ? _a : _b; }));
250	decoded_size = data_size;
251	}
252	} else
253	{ assert(0)((void) sizeof ((0) ? 1 : 0), __extension__ ({ if (0) ; else __assert_fail ("0", "ccv_nnc_tensor_io.c", 253, __extension__ __PRETTY_FUNCTION__ ); })); }
254	}
255	cumemcpy(tensor_out[0]->data.u8, tensor_out[0]->info.type, copying, CCV_TENSOR_CPU_MEMORY, decoded_size);
256	ccfreefree(workspace);
257	} else {
258	if (!options \|\| !options->decode)
259	{
260	if (datatype == CCV_16F && tensor_params.datatype == CCV_32F)
261	ccv_half_precision_to_float((uint16_t*)data, tensor->data.f32, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
262	else if (datatype == CCV_32F && tensor_params.datatype == CCV_16F)
263	ccv_float_to_half_precision((float)data, (uint16_t)tensor->data.f16, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)); (_a < _b) ? _a : _b; }));
264	else
265	{ assert(0)((void) sizeof ((0) ? 1 : 0), __extension__ ({ if (0) ; else __assert_fail ("0", "ccv_nnc_tensor_io.c", 265, __extension__ __PRETTY_FUNCTION__ ); })); }
266	} else {
267	void* const workspace = ccmallocmalloc(source_data_size);
268	if (datatype == CCV_16F && tensor_params.datatype == CCV_32F)
269	{
270	size_t decoded_size = source_data_size;
271	if (options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, workspace, &decoded_size))
272	{
273	if (CCV_GET_DATA_TYPE(tensor_out[0]->info.datatype)((tensor_out[0]->info.datatype) & 0xFF000) == CCV_QX)
274	{
275	if (decoded_size > 0)
276	memcpy(tensor_out[0]->data.f32, workspace, ccv_min(source_data_size, decoded_size)({ typeof (source_data_size) _a = (source_data_size); typeof ( decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }));
277	} else
278	ccv_half_precision_to_float((uint16_t*)workspace, tensor_out[0]->data.f32, ccv_min(tensor_count, ccv_min(source_data_size, decoded_size) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (({ typeof (source_data_size) _a = (source_data_size); typeof (decoded_size ) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(uint16_t )) _b = (({ typeof (source_data_size) _a = (source_data_size) ; typeof (decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
279	} else {
280	if (!tensor)
281	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
282	ccv_half_precision_to_float((uint16_t*)data, tensor->data.f32, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
283	}
284	} else if (datatype == CCV_32F && tensor_params.datatype == CCV_16F) {
285	size_t decoded_size = source_data_size;
286	if (options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, workspace, &decoded_size))
287	{
288	if (CCV_GET_DATA_TYPE(tensor_out[0]->info.datatype)((tensor_out[0]->info.datatype) & 0xFF000) == CCV_QX)
289	{
290	if (decoded_size > 0)
291	memcpy(tensor_out[0]->data.f16, workspace, ccv_min(source_data_size, decoded_size)({ typeof (source_data_size) _a = (source_data_size); typeof ( decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }));
292	} else
293	ccv_float_to_half_precision((float)workspace, (uint16_t)tensor_out[0]->data.f16, ccv_min(tensor_count, ccv_min(source_data_size, decoded_size) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (({ typeof (source_data_size) _a = (source_data_size); typeof (decoded_size ) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(float )) _b = (({ typeof (source_data_size) _a = (source_data_size) ; typeof (decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(float)); (_a < _b) ? _a : _b; }));
294	} else {
295	if (!tensor)
296	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
297	ccv_float_to_half_precision((float)data, (uint16_t)tensor->data.f16, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)); (_a < _b) ? _a : _b; }));
298	}
299	} else
300	{ assert(0)((void) sizeof ((0) ? 1 : 0), __extension__ ({ if (0) ; else __assert_fail ("0", "ccv_nnc_tensor_io.c", 300, __extension__ __PRETTY_FUNCTION__ ); })); }
301	ccfreefree(workspace);
302	}
303	}
304	#elif defined(HAVE_MPS)
305	if (CCV_TENSOR_GET_MEMORY(tensor_params.type)((tensor_params.type) & 0x3) == CCV_TENSOR_GPU_MEMORY)
306	{
307	const size_t data_size = ccv_nnc_tensor_data_size(tensor_params);
308	unsigned char* workspace;
309	unsigned char* copying;
310	size_t decoded_size = data_size;
311	if (!options \|\| !options->decode)
312	{
313	copying = workspace = ccmallocmalloc(data_size);
314	if (datatype == CCV_16F && tensor_params.datatype == CCV_32F)
315	ccv_half_precision_to_float((uint16_t)data, (float)workspace, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
316	else if (datatype == CCV_32F && tensor_params.datatype == CCV_16F)
317	ccv_float_to_half_precision((float)data, (uint16_t)workspace, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)); (_a < _b) ? _a : _b; }));
318	else
319	{ assert(0)((void) sizeof ((0) ? 1 : 0), __extension__ ({ if (0) ; else __assert_fail ("0", "ccv_nnc_tensor_io.c", 319, __extension__ __PRETTY_FUNCTION__ ); })); }
320	} else {
321	copying = workspace = ccmallocmalloc(data_size + source_data_size);
322	if (datatype == CCV_16F && tensor_params.datatype == CCV_32F)
323	{
324	decoded_size = source_data_size;
325	if (options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, workspace + data_size, &decoded_size))
326	{
327	if (CCV_GET_DATA_TYPE(tensor_out[0]->info.datatype)((tensor_out[0]->info.datatype) & 0xFF000) == CCV_QX)
328	copying = workspace + data_size;
329	else {
330	ccv_half_precision_to_float((uint16_t)(workspace + data_size), (float)workspace, ccv_min(tensor_count, ccv_min(source_data_size, decoded_size) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (({ typeof (source_data_size) _a = (source_data_size); typeof (decoded_size ) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(uint16_t )) _b = (({ typeof (source_data_size) _a = (source_data_size) ; typeof (decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
331	decoded_size = data_size;
332	}
333	} else {
334	if (!tensor)
335	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
336	ccv_half_precision_to_float((uint16_t)data, (float)workspace, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
337	decoded_size = data_size;
338	}
339	} else if (datatype == CCV_32F && tensor_params.datatype == CCV_16F) {
340	decoded_size = source_data_size;
341	if (options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, workspace + data_size, &decoded_size))
342	{
343	if (CCV_GET_DATA_TYPE(tensor_out[0]->info.datatype)((tensor_out[0]->info.datatype) & 0xFF000) == CCV_QX)
344	copying = workspace + data_size;
345	else {
346	ccv_float_to_half_precision((float)(workspace + data_size), (uint16_t)workspace, ccv_min(tensor_count, ccv_min(source_data_size, decoded_size) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (({ typeof (source_data_size) _a = (source_data_size); typeof (decoded_size ) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(float )) _b = (({ typeof (source_data_size) _a = (source_data_size) ; typeof (decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(float)); (_a < _b) ? _a : _b; }));
347	decoded_size = data_size;
348	}
349	} else {
350	if (!tensor)
351	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
352	ccv_float_to_half_precision((float)data, (uint16_t)workspace, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)); (_a < _b) ? _a : _b; }));
353	decoded_size = data_size;
354	}
355	} else
356	{ assert(0)((void) sizeof ((0) ? 1 : 0), __extension__ ({ if (0) ; else __assert_fail ("0", "ccv_nnc_tensor_io.c", 356, __extension__ __PRETTY_FUNCTION__ ); })); }
357	}
358	assert(tensor_out[0]->dataof == 0)((void) sizeof ((tensor_out[0]->dataof == 0) ? 1 : 0), __extension__ ({ if (tensor_out[0]->dataof == 0) ; else __assert_fail ( "tensor_out[0]->dataof == 0", "ccv_nnc_tensor_io.c", 358, __extension__ __PRETTY_FUNCTION__); }));
359	mpmemcpy(tensor_out[0]->data.u8, tensor_out[0]->dataof, tensor_out[0]->info.type, copying, 0, CCV_TENSOR_CPU_MEMORY, decoded_size);
360	ccfreefree(workspace);
361	} else {
362	if (!options \|\| !options->decode)
363	{
364	if (datatype == CCV_16F && tensor_params.datatype == CCV_32F)
365	ccv_half_precision_to_float((uint16_t*)data, tensor->data.f32, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
366	else if (datatype == CCV_32F && tensor_params.datatype == CCV_16F)
367	ccv_float_to_half_precision((float)data, (uint16_t)tensor->data.f16, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)); (_a < _b) ? _a : _b; }));
368	else
369	{ assert(0)((void) sizeof ((0) ? 1 : 0), __extension__ ({ if (0) ; else __assert_fail ("0", "ccv_nnc_tensor_io.c", 369, __extension__ __PRETTY_FUNCTION__ ); })); }
370	} else {
371	void* const workspace = ccmallocmalloc(source_data_size);
372	if (datatype == CCV_16F && tensor_params.datatype == CCV_32F)
373	{
374	size_t decoded_size = source_data_size;
375	if (options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, workspace, &decoded_size))
376	{
377	if (CCV_GET_DATA_TYPE(tensor_out[0]->info.datatype)((tensor_out[0]->info.datatype) & 0xFF000) == CCV_QX)
378	{
379	if (decoded_size > 0)
380	memcpy(tensor_out[0]->data.f32, workspace, ccv_min(source_data_size, decoded_size)({ typeof (source_data_size) _a = (source_data_size); typeof ( decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }));
381	} else
382	ccv_half_precision_to_float((uint16_t*)workspace, tensor_out[0]->data.f32, ccv_min(tensor_count, ccv_min(source_data_size, decoded_size) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (({ typeof (source_data_size) _a = (source_data_size); typeof (decoded_size ) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(uint16_t )) _b = (({ typeof (source_data_size) _a = (source_data_size) ; typeof (decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
383	} else {
384	if (!tensor)
385	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
386	ccv_half_precision_to_float((uint16_t*)data, tensor->data.f32, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
387	}
388	} else if (datatype == CCV_32F && tensor_params.datatype == CCV_16F) {
389	size_t decoded_size = source_data_size;
390	if (options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, workspace, &decoded_size))
391	{
392	if (CCV_GET_DATA_TYPE(tensor_out[0]->info.datatype)((tensor_out[0]->info.datatype) & 0xFF000) == CCV_QX)
393	{
394	if (decoded_size > 0)
395	memcpy(tensor_out[0]->data.f16, workspace, ccv_min(source_data_size, decoded_size)({ typeof (source_data_size) _a = (source_data_size); typeof ( decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }));
396	} else
397	ccv_float_to_half_precision((float)workspace, (uint16_t)tensor_out[0]->data.f16, ccv_min(tensor_count, ccv_min(source_data_size, decoded_size) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (({ typeof (source_data_size) _a = (source_data_size); typeof (decoded_size ) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(float )) _b = (({ typeof (source_data_size) _a = (source_data_size) ; typeof (decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(float)); (_a < _b) ? _a : _b; }));
398	} else {
399	if (!tensor)
400	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
401	ccv_float_to_half_precision((float)data, (uint16_t)tensor->data.f16, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)); (_a < _b) ? _a : _b; }));
402	}
403	} else
404	{ assert(0)((void) sizeof ((0) ? 1 : 0), __extension__ ({ if (0) ; else __assert_fail ("0", "ccv_nnc_tensor_io.c", 404, __extension__ __PRETTY_FUNCTION__ ); })); }
405	ccfreefree(workspace);
406	}
407	}
408	#else
409	if (!options \|\| !options->decode)
410	{
411	if (datatype == CCV_16F && tensor_params.datatype == CCV_32F)
412	ccv_half_precision_to_float((uint16_t*)data, tensor->data.f32, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
413	else if (datatype == CCV_32F && tensor_params.datatype == CCV_16F)
414	ccv_float_to_half_precision((float)data, (uint16_t)tensor->data.f16, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)); (_a < _b) ? _a : _b; }));
415	else
416	{ assert(0)((void) sizeof ((0) ? 1 : 0), __extension__ ({ if (0) ; else __assert_fail ("0", "ccv_nnc_tensor_io.c", 416, __extension__ __PRETTY_FUNCTION__ ); })); }
417	} else {
418	void* const workspace = ccmallocmalloc(source_data_size);
419	if (datatype == CCV_16F && tensor_params.datatype == CCV_32F)
420	{
421	size_t decoded_size = source_data_size;
422	if (options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, workspace, &decoded_size))
423	{
424	if (CCV_GET_DATA_TYPE(tensor_out[0]->info.datatype)((tensor_out[0]->info.datatype) & 0xFF000) == CCV_QX)
425	{
426	if (decoded_size > 0)
427	memcpy(tensor_out[0]->data.f32, workspace, ccv_min(source_data_size, decoded_size)({ typeof (source_data_size) _a = (source_data_size); typeof ( decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }));
428	} else
429	ccv_half_precision_to_float((uint16_t*)workspace, tensor_out[0]->data.f32, ccv_min(tensor_count, ccv_min(source_data_size, decoded_size) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (({ typeof (source_data_size) _a = (source_data_size); typeof (decoded_size ) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(uint16_t )) _b = (({ typeof (source_data_size) _a = (source_data_size) ; typeof (decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
430	} else {
431	if (!tensor)
432	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
433	ccv_half_precision_to_float((uint16_t*)data, tensor->data.f32, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(uint16_t))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(uint16_t)); (_a < _b) ? _a : _b; }));
434	}
435	} else if (datatype == CCV_32F && tensor_params.datatype == CCV_16F) {
436	size_t decoded_size = source_data_size;
437	if (options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, workspace, &decoded_size))
438	{
439	if (CCV_GET_DATA_TYPE(tensor_out[0]->info.datatype)((tensor_out[0]->info.datatype) & 0xFF000) == CCV_QX)
440	{
441	if (decoded_size > 0)
442	memcpy(tensor_out[0]->data.f16, workspace, ccv_min(source_data_size, decoded_size)({ typeof (source_data_size) _a = (source_data_size); typeof ( decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }));
443	} else
444	ccv_float_to_half_precision((float)workspace, (uint16_t)tensor_out[0]->data.f16, ccv_min(tensor_count, ccv_min(source_data_size, decoded_size) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (({ typeof (source_data_size) _a = (source_data_size); typeof (decoded_size ) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(float )) _b = (({ typeof (source_data_size) _a = (source_data_size) ; typeof (decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }) / sizeof(float)); (_a < _b) ? _a : _b; }));
445	} else {
446	if (!tensor)
447	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
448	ccv_float_to_half_precision((float)data, (uint16_t)tensor->data.f16, ccv_min(tensor_count, sqlite3_column_bytes(tensor_select_stmt, 0) / sizeof(float))({ typeof (tensor_count) _a = (tensor_count); typeof (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)) _b = (sqlite3_column_bytes (tensor_select_stmt, 0) / sizeof(float)); (_a < _b) ? _a : _b; }));
449	}
450	} else
451	{ assert(0)((void) sizeof ((0) ? 1 : 0), __extension__ ({ if (0) ; else __assert_fail ("0", "ccv_nnc_tensor_io.c", 451, __extension__ __PRETTY_FUNCTION__ ); })); }
452	ccfreefree(workspace);
453	}
454	#endif
455	} else {
456	// If it is QX, we need to have a custom decoder to decode properly.
457	if (datatype != tensor_params.datatype)
458	{ assert(options && options->decode)((void) sizeof ((options && options->decode) ? 1 : 0), __extension__ ({ if (options && options->decode ) ; else __assert_fail ("options && options->decode" , "ccv_nnc_tensor_io.c", 458, __extension__ __PRETTY_FUNCTION__ ); })); }
459	size_t data_size = ccv_nnc_tensor_data_size(tensor_params);
460	#ifdef HAVE_CUDA1
461	if (!options \|\| !options->decode)
462	{
463	if (CCV_TENSOR_GET_MEMORY(tensor_params.type)((tensor_params.type) & 0x3) == CCV_TENSOR_GPU_MEMORY)
464	cumemcpy(tensor->data.u8, tensor->info.type, data, CCV_TENSOR_CPU_MEMORY, ccv_min(data_size, sqlite3_column_bytes(tensor_select_stmt, 0))({ typeof (data_size) _a = (data_size); typeof (sqlite3_column_bytes (tensor_select_stmt, 0)) _b = (sqlite3_column_bytes(tensor_select_stmt , 0)); (_a < _b) ? _a : _b; }));
465	else
466	memcpy(tensor->data.u8, data, ccv_min(data_size, sqlite3_column_bytes(tensor_select_stmt, 0))({ typeof (data_size) _a = (data_size); typeof (sqlite3_column_bytes (tensor_select_stmt, 0)) _b = (sqlite3_column_bytes(tensor_select_stmt , 0)); (_a < _b) ? _a : _b; }));
467	} else {
468	if (CCV_TENSOR_GET_MEMORY(tensor_params.type)((tensor_params.type) & 0x3) == CCV_TENSOR_GPU_MEMORY)
469	{
470	void* const workspace = ccmallocmalloc(data_size);
471	size_t decoded_size = data_size;
472	if (options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, workspace, &decoded_size))
473	cumemcpy(tensor_out[0]->data.u8, tensor_out[0]->info.type, workspace, CCV_TENSOR_CPU_MEMORY, ccv_min(data_size, decoded_size)({ typeof (data_size) _a = (data_size); typeof (decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }));
474	else {
475	if (!tensor)
476	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
477	cumemcpy(tensor->data.u8, tensor->info.type, data, CCV_TENSOR_CPU_MEMORY, ccv_min(data_size, sqlite3_column_bytes(tensor_select_stmt, 0))({ typeof (data_size) _a = (data_size); typeof (sqlite3_column_bytes (tensor_select_stmt, 0)) _b = (sqlite3_column_bytes(tensor_select_stmt , 0)); (_a < _b) ? _a : _b; }));
478	}
479	ccfreefree(workspace);
480	} else {
481	size_t decoded_size = data_size;
482	if (!options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, tensor ? tensor->data.u8 : 0, &decoded_size))
483	{
484	if (!tensor)
485	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
486	memcpy(tensor->data.u8, data, ccv_min(data_size, sqlite3_column_bytes(tensor_select_stmt, 0))({ typeof (data_size) _a = (data_size); typeof (sqlite3_column_bytes (tensor_select_stmt, 0)) _b = (sqlite3_column_bytes(tensor_select_stmt , 0)); (_a < _b) ? _a : _b; }));
487	}
488	}
489	}
490	#elif defined(HAVE_MPS)
491	if (!options \|\| !options->decode)
492	{
493	if (CCV_TENSOR_GET_MEMORY(tensor_params.type)((tensor_params.type) & 0x3) == CCV_TENSOR_GPU_MEMORY)
494	{
495	assert(tensor->dataof == 0)((void) sizeof ((tensor->dataof == 0) ? 1 : 0), __extension__ ({ if (tensor->dataof == 0) ; else __assert_fail ("tensor->dataof == 0" , "ccv_nnc_tensor_io.c", 495, __extension__ __PRETTY_FUNCTION__ ); }));
496	mpmemcpy(tensor->data.u8, tensor->dataof, tensor->info.type, data, 0, CCV_TENSOR_CPU_MEMORY, ccv_min(data_size, sqlite3_column_bytes(tensor_select_stmt, 0))({ typeof (data_size) _a = (data_size); typeof (sqlite3_column_bytes (tensor_select_stmt, 0)) _b = (sqlite3_column_bytes(tensor_select_stmt , 0)); (_a < _b) ? _a : _b; }));
497	} else
498	memcpy(tensor->data.u8, data, ccv_min(data_size, sqlite3_column_bytes(tensor_select_stmt, 0))({ typeof (data_size) _a = (data_size); typeof (sqlite3_column_bytes (tensor_select_stmt, 0)) _b = (sqlite3_column_bytes(tensor_select_stmt , 0)); (_a < _b) ? _a : _b; }));
499	} else {
500	if (CCV_TENSOR_GET_MEMORY(tensor_params.type)((tensor_params.type) & 0x3) == CCV_TENSOR_GPU_MEMORY)
501	{
502	if (tensor)
503	{ assert(tensor->dataof == 0)((void) sizeof ((tensor->dataof == 0) ? 1 : 0), __extension__ ({ if (tensor->dataof == 0) ; else __assert_fail ("tensor->dataof == 0" , "ccv_nnc_tensor_io.c", 503, __extension__ __PRETTY_FUNCTION__ ); })); }
504	void* const workspace = ccmallocmalloc(data_size);
505	size_t decoded_size = data_size;
506	if (options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, workspace, &decoded_size)) {
507	mpmemcpy(tensor_out[0]->data.u8, tensor_out[0]->dataof, tensor_out[0]->info.type, workspace, 0, CCV_TENSOR_CPU_MEMORY, ccv_min(data_size, decoded_size)({ typeof (data_size) _a = (data_size); typeof (decoded_size) _b = (decoded_size); (_a < _b) ? _a : _b; }));
508	} else {
509	if (!tensor)
510	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
511	mpmemcpy(tensor->data.u8, tensor->dataof, tensor->info.type, data, 0, CCV_TENSOR_CPU_MEMORY, ccv_min(data_size, sqlite3_column_bytes(tensor_select_stmt, 0))({ typeof (data_size) _a = (data_size); typeof (sqlite3_column_bytes (tensor_select_stmt, 0)) _b = (sqlite3_column_bytes(tensor_select_stmt , 0)); (_a < _b) ? _a : _b; }));
512	}
513	ccfreefree(workspace);
514	} else {
515	size_t decoded_size = data_size;
516	if (!options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, tensor ? tensor->data.u8 : 0, &decoded_size))
517	{
518	if (!tensor)
519	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
520	memcpy(tensor->data.u8, data, ccv_min(data_size, sqlite3_column_bytes(tensor_select_stmt, 0))({ typeof (data_size) _a = (data_size); typeof (sqlite3_column_bytes (tensor_select_stmt, 0)) _b = (sqlite3_column_bytes(tensor_select_stmt , 0)); (_a < _b) ? _a : _b; }));
521	}
522	}
523	}
524	#else
525	if (!options \|\| !options->decode)
526	memcpy(tensor->data.u8, data, ccv_min(data_size, sqlite3_column_bytes(tensor_select_stmt, 0))({ typeof (data_size) _a = (data_size); typeof (sqlite3_column_bytes (tensor_select_stmt, 0)) _b = (sqlite3_column_bytes(tensor_select_stmt , 0)); (_a < _b) ? _a : _b; }));
527	else {
528	size_t decoded_size = data_size;
529	if (!options->decode(data, sqlite3_column_bytes(tensor_select_stmt, 0), datatype, dim, nd, identifier, options->context, tensor_params, tensor_out, tensor ? tensor->data.u8 : 0, &decoded_size))
530	{
531	if (!tensor)
532	*tensor_out = tensor = ccv_nnc_tensor_new(0, tensor_params, 0);
533	memcpy(tensor->data.u8, data, ccv_min(data_size, sqlite3_column_bytes(tensor_select_stmt, 0))({ typeof (data_size) _a = (data_size); typeof (sqlite3_column_bytes (tensor_select_stmt, 0)) _b = (sqlite3_column_bytes(tensor_select_stmt , 0)); (_a < _b) ? _a : _b; }));
534	}
535	}
536	#endif
537	}
538	tensor_out[0]->type &= ~CCV_GARBAGE; // If it is marked as garbage, remove that mark now.
539	sqlite3_reset(tensor_select_stmt);
540	sqlite3_clear_bindings(tensor_select_stmt);
541	sqlite3_finalize(tensor_select_stmt);
542	return CCV_IO_FINAL;
543	}
544