/
fileioc.h
648 lines (598 loc) · 32.2 KB
/
fileioc.h
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
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
/**
* @file
*
* @author Matt "MateoConLechuga" Waltz
*/
#ifndef _FILEIOC_H
#define _FILEIOC_H
#include <stdint.h>
#include <stddef.h>
#include <stdlib.h>
#include <stdbool.h>
#include <stdio.h>
#include <ti/vars.h>
#ifdef __cplusplus
extern "C" {
#endif
/* @cond */
#ifndef EOF
#define EOF (-1)
#endif
/* @endcond */
/**
* Allocate a \p real_t variable on the C heap using malloc().
* Does not modify OS storage. The allocated variable should be
* free'd with the free() function when you are done using it.
* @returns Pointer to \p real_t allocated variable.
*/
#define ti_MallocReal() ((real_t*)malloc(sizeof(real_t)))
/**
* Allocate a \p cplx_t variable on the C heap using malloc().
* Does not modify OS storage. The allocated variable should be
* free'd with the free() function when you are done using it.
* @returns Pointer to \p cplx_t allocated variable.
*/
#define ti_MallocCplx() ((cplx_t*)malloc(sizeof(cplx_t)))
/**
* Allocate a \p string_t variable on the C heap using malloc().
* Does not modify OS storage. The allocated variable should be
* free'd with the free() function when you are done using it.
* @param[in] len Length of string to allocate in tokens/characters.
* @returns Pointer to \p string_t allocated variable.
*/
#define ti_MallocString(len) ti_AllocString((len), malloc)
/**
* Allocate a \p list_t variable on the C heap using malloc().
* Does not modify OS storage. The allocated variable should be
* free'd with the free() function when you are done using it.
* @param[in] dim Dimension of list.
* @returns Pointer to \p list_t allocated variable.
*/
#define ti_MallocList(dim) ti_AllocList((dim), malloc)
/**
* Allocate a \p matrix_t variable on the C heap using malloc().
* Does not modify OS storage. The allocated variable should be
* free'd with the free() function when you are done using it.
* @param[in] rows Number of rows in matrix.
* @param[in] cols Number of columns in matrix.
* @returns Pointer to \p matrix_t allocated variable.
*/
#define ti_MallocMatrix(rows, cols) ti_AllocMatrix((rows), (cols), malloc)
/**
* Allocate a \p cplx_list_t variable on the C heap using malloc().
* Does not modify OS storage. The allocated variable should be
* free'd with the free() function when you are done using it.
* @param[in] dim Dimension of list.
* @returns Pointer to \p cplx_list_t allocated variable.
*/
#define ti_MallocCplxList(dim) ti_AllocCplxList((dim), malloc)
/**
* Allocate a \p equ_t variable on the C heap using malloc().
* Does not modify OS storage. The allocated variable should be
* free'd with the free() function when you are done using it.
* @param[in] len Length of equation to allocate in tokens/characters.
* @returns Pointer to \p equ_t allocated variable.
*/
#define ti_MallocEqu(len) ti_AllocEqu((len), malloc)
/* @cond */
string_t *ti_AllocString(unsigned len, void *(*malloc_routine)(size_t));
list_t *ti_AllocList(unsigned dim, void *(*malloc_routine)(size_t));
matrix_t *ti_AllocMatrix(uint8_t rows, uint8_t cols, void *(*malloc_routine)(size_t));
cplx_list_t *ti_AllocCplxList(unsigned dim, void *(*malloc_routine)(size_t));
equ_t *ti_AllocEqu(unsigned len, void *(*malloc_routine)(size_t));
/* @endcond */
/**
* Opens an AppVar for reading, writing, and/or appending.
* AppVars may be stored in either the archive (aka flash memory), or in RAM.
* Depending on the mode used to open the AppVar it may be moved from archive memory into RAM.
* \rst
* +--------------+---------------------------------------------------------------------------------------------------------------------------------+
* | **mode** | **Description** |
* +--------------+---------------------------------------------------------------------------------------------------------------------------------+
* | "r" | Read mode. If the AppVar does not exist :code:`0` is returned. The AppVar is not moved from its storage location. |
* +--------------+---------------------------------------------------------------------------------------------------------------------------------+
* | "w" | Write mode. Deletes any existing AppVar and creates the AppVar in RAM. |
* +--------------+---------------------------------------------------------------------------------------------------------------------------------+
* | "a" | Append mode. The AppVar is created if it does not exist. If the AppVar is stored in the archive it is moved to RAM. |
* +--------------+---------------------------------------------------------------------------------------------------------------------------------+
* | "r+" | Read/Write mode. If the AppVar does not exist :code:`0` is returned. If the AppVar is stored in the archive it is moved to RAM. |
* +--------------+---------------------------------------------------------------------------------------------------------------------------------+
* | "w+" | Write/Read mode. Deletes any existing AppVar and creates the AppVar in RAM. |
* +--------------+---------------------------------------------------------------------------------------------------------------------------------+
* | "a+" | Append/Read mode. The AppVar is created if it does not exist. If the AppVar is stored in the archive it is moved to RAM. |
* +--------------+---------------------------------------------------------------------------------------------------------------------------------+
* \endrst
* @param[in] name Name of AppVar to open.
* @param[in] mode Documented in the above table.
* @returns AppVar variable handle, or `0` (zero) on error.
*/
uint8_t ti_Open(const char *name, const char *mode);
/**
* Opens a variable for reading, writing, and/or appending.
* Variables may be stored in either the archive (aka flash memory), or in RAM.
* Depending on the mode used to open the variable it may be moved from archive memory into RAM.
* \rst
* +--------------+-------------------------------------------------------------------------------------------------------------------------------------+
* | **mode** | **Description** |
* +--------------+-------------------------------------------------------------------------------------------------------------------------------------+
* | "r" | Read mode. If the variable does not exist :code:`0` is returned. The variable is not moved from its storage location. |
* +--------------+-------------------------------------------------------------------------------------------------------------------------------------+
* | "w" | Write mode. Deletes any existing variable and creates the variable in RAM. |
* +--------------+-------------------------------------------------------------------------------------------------------------------------------------+
* | "a" | Append mode. The variable is created if it does not exist. If the variable is stored in the archive it is moved to RAM. |
* +--------------+-------------------------------------------------------------------------------------------------------------------------------------+
* | "r+" | Read/Write mode. If the variable does not exist :code:`0` is returned. If the variable is stored in the archive it is moved to RAM. |
* +--------------+-------------------------------------------------------------------------------------------------------------------------------------+
* | "w+" | Write/Read mode. Deletes any existing variable and creates the variable in RAM. |
* +--------------+-------------------------------------------------------------------------------------------------------------------------------------+
* | "a+" | Append/Read mode. The variable is created if it does not exist. If the variable is stored in the archive it is moved to RAM. |
* +--------------+-------------------------------------------------------------------------------------------------------------------------------------+
* \endrst
* @param[in] name Name of variable to open.
* @param[in] mode Documented in the above table.
* @param[in] type Variable type.
* @returns Variable handle, or `0` (zero) on error.
*/
uint8_t ti_OpenVar(const char *name, const char *mode, uint8_t type);
/**
* Closes an open AppVar/variable handle.
* This must be performed for every ti_Open or ti_OpenVar call.
*
* @param[in] handle AppVar/variable handle.
* @returns `0` (zero) on error.
*/
int ti_Close(uint8_t handle);
/**
* Locates AppVars stored in archive and RAM.
* This function searches for AppVars whose data section begins with a specific string.
* The null terminator of the string is not included in the search.
*
* \p vat_ptr should be set to NULL to begin a search, and is updated with each call.
*
* @code{.cpp}
* char *var_name;
* void *vat_ptr = NULL;
*
* while ((var_name = ti_Detect(&vat_ptr, "my_data")))
* {
* // do something with var_name or vat_ptr
* }
* @endcode
*
* @param[in] vat_ptr Current offset in the VAT.
* @param[in] detect_string String to search for (NULL to search for all).
* @returns The AppVar name. This should be duplicated to another buffer
* as subsequent calls of this function change the name stored at the
* returned pointer's address.
* @note If the return value is NULL, there are no more variables to find.
*/
char *ti_Detect(void **vat_ptr, const char *detect_string);
/**
* Locates variables stored in archive and RAM.
* This function searches for variables whose data section begins with a specific string.
* The null terminator of the string is not included in the search.
*
* \p vat_ptr should be set to NULL to begin a search, and is updated with each call.
*
* @code{.cpp}
* char *var_name;
* void *vat_ptr = NULL;
*
* while ((var_name = ti_DetectVar(&vat_ptr, "my_data", OS_TYPE_PRGM)))
* {
* // do something with var_name or vat_ptr
* }
* @endcode
*
* @param[in,out] vat_ptr Current offset in the VAT.
* @param[in] detect_string String to search for (NULL to search for all).
* @param[in] var_type Type of variable to detect.
* @returns The variable name. This should be duplicated to another buffer
* as subsequent calls of this function change the name stored at the
* returned pointer's address.
* @note If the return value is NULL, there are no more variables to find.
*/
char *ti_DetectVar(void **vat_ptr, const char *detect_string, uint8_t var_type);
/**
* Locates any variables stored in archive and RAM.
* This function searches for variables whose data section begins with a specific string.
* The null terminator of the string is not included in the search.
*
* \p vat_ptr should be set to NULL to begin a search, and is updated with each call.
*
* @code{.cpp}
* uint8_t var_type;
* char *var_name;
* void *vat_ptr = NULL;
*
* while ((var_name = ti_DetectAny(&vat_ptr, "my_data", &var_type)))
* {
* if (var_type == OS_TYPE_PRGM || var_type == OS_TYPE_PROT_PRGM)
* {
* // do something with var_name or vat_ptr
* }
* }
* @endcode
*
* @param[in,out] vat_ptr Current offset in the VAT.
* @param[in] detect_string String to search for (NULL to search for all).
* @param[out] var_type Type of variable found.
* @returns The variable name. This should be duplicated to another buffer
* as subsequent calls of this function change the name stored at the
* returned pointer's address.
* @note If the return value is NULL, there are no more variables to find.
*/
char *ti_DetectAny(void **vat_ptr, const char *detect_string, uint8_t *var_type);
/**
* Writes data to an AppVar/variable handle.
*
* @param[in] data Pointer to data element(s).
* @param[in] size Size (in bytes) of a single \p data element.
* @param[in] count Number of \p data elements to write.
* @param[in] handle AppVar/variable handle.
* @returns Number of data elements written; equals count on success.
*/
size_t ti_Write(const void *data, size_t size, size_t count, uint8_t handle);
/**
* Reads data from an AppVar/variable handle.
*
* @param[out] data Pointer to data element(s).
* @param[in] size Size (in bytes) of a single \p data element.
* @param[in] count Number of \p data elements to read.
* @param[in] handle AppVar/variable handle.
* @returns Number of data elements written; equals count on success.
*/
size_t ti_Read(void *data, size_t size, size_t count, uint8_t handle);
/**
* Writes a character to an AppVar/variable handle.
*
* @param[in] ch Character to write.
* @param[in] handle AppVar/variable handle.
* @returns `EOF` on error, or \p ch.
*/
int ti_PutC(char ch, uint8_t handle);
/**
* Reads a character from an AppVar/variable handle.
*
* @param[in] handle AppVar/variable handle.
* @returns `EOF` on error, or a valid character.
*/
int ti_GetC(uint8_t handle);
/**
* Seeks to an offset in the file.
* \rst
* +--------------+-------------------------------------------------------+
* | **origin** | **Description** |
* +--------------+-------------------------------------------------------+
* | SEEK_SET | Seek from beginning of AppVar/variable. |
* +--------------+-------------------------------------------------------+
* | SEEK_CUR | Seek from current AppVar/variable offset. |
* +--------------+-------------------------------------------------------+
* | SEEK_END | Seek from end of AppVar/variable. |
* +--------------+-------------------------------------------------------+
* \endrst
* @param[in] offset Number of bytes to offest from (can be negative).
* @param[in] origin Documented in the above table.
* @param[in] handle AppVar/variable handle.
* @returns `EOF` on failure.
*/
int ti_Seek(int offset, unsigned int origin, uint8_t handle);
/**
* Seeks to the start of an AppVar/variable's data.
* Functionally equivalent to <tt>ti_Seek(0, SEEK_SET, handle)</tt>
*
* @param[in] handle AppVar/variable handle.
* @returns `EOF` on failure.
*/
int ti_Rewind(uint8_t handle);
/**
* Gets the current data offset from the start of an AppVar/variable.
*
* @param[in] handle AppVar/variable handle.
* @returns The current data offset from the start of the AppVar/variable.
*/
uint16_t ti_Tell(uint8_t handle);
/**
* Gets the size of an AppVar/variable.
*
* @param[in] handle AppVar/variable handle.
* @returns The size of the AppVar/variable.
*/
uint16_t ti_GetSize(uint8_t handle);
/**
* Resizes an AppVar/variable.
*
* @param[in] handle AppVar/variable handle.
* @param[in] size New AppVar/variable size.
* @returns Resized size on success, `0` on failure, or `-1` if the AppVar/variable cannot be opened.
*/
int ti_Resize(size_t size, uint8_t handle);
/**
* Checks if an AppVar/variable is stored in archive memory.
*
* @param[in] handle AppVar/variable handle.
* @returns `0` if the AppVar/variable is not in the archive.
*/
int ti_IsArchived(uint8_t handle);
/**
* Moves an AppVar/variable between archive or RAM storage.
* \rst
* +-------------+-----------------------------------------+
* | **archive** | **Description** |
* +-------------+-----------------------------------------+
* | true | Store AppVar/variable in archive. |
* +-------------+-----------------------------------------+
* | false | Store AppVar/variable in RAM. |
* +-------------+-----------------------------------------+
* \endrst
* @param[in] archive Documented in the above table.
* @param[in] handle AppVar/variable handle.
* @returns `0` on failure.
*
* @warning Archiving a variable can cause a garbage collection cycle.
* You should use ti_SetGCBehavior to catch this event.
*/
int ti_SetArchiveStatus(bool archive, uint8_t handle);
/**
* Deletes an AppVar.
*
* @param[in] name AppVar name.
* @returns `0` on failure.
*/
int ti_Delete(const char *name);
/**
* Deletes a variable.
*
* @param[in] name Variable name.
* @param[in] type Variable type.
* @returns `0` on failure.
*/
int ti_DeleteVar(const char *name, uint8_t type);
/**
* Gets the string used for displaying a TI token.
* The TI calculators encode programs and other variables in "tokens", which are
* either 1 or 2 bytes in length. For example, the token `0x21`
* corresponds to the string `mean(` in TI-BASIC programs. This allows
* program size to be reduced as the whole string is not stored - but requires
* additional decoding in order to resolve the token's string representation.
*
* @param[in,out] read_pointer Address of pointer to data to read.
* @returns A pointer to a null-terminated string used for displaying a TI token.
* @param[out] token_len Pointer to variable to hold length of the token,
* used for determining the next read location (Can be NULL if unused).
* @param[out] str_len Pointer to variable to hold length of resulting
* string (Can be NULL if unused). The returned string is static, and should be
* copied to another buffer as needed if it needs to be preserved across
* function calls.
*
* @note \p read_pointer is automatically updated to point to the next token,
* incremented by the value of \p token_len.
*/
char *ti_GetTokenString(void **read_pointer, uint8_t *token_len, unsigned int *str_len);
/**
* Gets a direct data pointer to the current offset in an AppVar/variable.
* This may be used for direct reading/writing without the need for an extra
* copy. It is easily prone to memory corruption if not used correctly, so use
* at your own risk.
*
* @param[in] handle AppVar/variable handle.
* @returns Pointer to AppVar/variable data.
*
* @note If the AppVar is in RAM, the direct pointer can be used to read/modify
* its contents directly, with the caveat that the AppVar must be large enough
* to consume any writes. If the AppVar is in the archive, direct reading is
* possible but writes will lead to a system reset.
*
* @warning This function is potentially unsafe to use as variables may be
* shifted around in memory, causing this pointer to become invalid and
* potentially corrupt memory. Avoid creating, deleting, resizing, or changing
* the storage location any variables while this pointer is being actively used.
*/
void *ti_GetDataPtr(uint8_t handle);
/**
* Gets a pointer to the VAT entry of an AppVar/variable.
*
* @param[in] handle AppVar/variable handle.
* @returns VAT location of the variable.
*
* @note If the variable is in RAM, the direct pointer can be used to
* read/modify its contents directly, with the caveat that the AppVar must be
* large enough to consume any writes. If the AppVar is in the archive, direct
* reading is possible but writes will lead to a system reset.
*
* @warning This function is potentially unsafe to use as variables may be
* shifted around in memory, causing this pointer to become invalid and
* potentially corrupt memory. Avoid creating, deleting, resizing, or changing
* the storage location any variables while this pointer is being actively used.
*/
void *ti_GetVATPtr(uint8_t handle);
/**
* Gets the AppVar/variable name of an already opened handle.
*
* @param[in] name Buffer to store name, must be at least 10 bytes in sizew.
* @param[in] handle AppVar/variable handle.
*/
void ti_GetName(char *name, uint8_t handle);
/**
* Renames an AppVar.
*
* @param[in] old_name Old name of AppVar.
* @param[in] new_name New name of AppVar.
* @returns `0` if success, `1` if AppVar already exists, `2` any other error occurs.
*
* @warning It is hazardous to rename an open AppVar.
* Close the AppVar before renaming.
*/
uint8_t ti_Rename(const char *old_name, const char *new_name);
/**
* Renames a variable.
*
* @param[in] old_name Old name of variable.
* @param[in] new_name New name of variable.
* @param[in] type Type of variable.
* @returns `0` if success, `1` if variable already exists, `2` any other error occurs.
*
* @warning It is hazardous to rename an open variable.
* Close the variable before renaming.
*/
uint8_t ti_RenameVar(const char *old_name, const char *new_name, uint8_t type);
/**
* Stores data or values to an OS variable.
*
* @param[in] type Variable type.
* @param[in] name Variable name.
* @param[in] data Data to set variable to.
*
* @returns 0 if success, otherwise TI OS Error Code.
*/
uint8_t ti_SetVar(uint8_t type, const char *name, const void *data);
/**
* Stores an OS variable to another variable.
*
* @param[in] type_to Variable type to store data to.
* @param[in] to Variable name to store data to.
* @param[in] type_from Variable type to get data from.
* @param[in] from Variable name to get data from.
* @returns 0 if success, otherwise TI OS Error Code.
*/
uint8_t ti_StoVar(uint8_t type_to, const char *to, uint8_t type_from, const char *from);
/**
* Recalls a OS variable.
*
* @param[in] type Variable type.
* @param[in] name Variable name.
* @param[out] data Address of pointer to variable structure.
* @returns 0 if success, otherwise TI OS Error Code.
*/
uint8_t ti_RclVar(uint8_t type, const char *name, void **data);
/**
* Checks to see if there is room in the archive for storing \p num_bytes,
* without needing to execute a Garbage Collect.
*
* @param[in] num_bytes Number of bytes to be stored to the archive.
* @returns `true` if the bytes can be stored to the archive without triggering a Garbage Collect.
*/
bool ti_ArchiveHasRoom(uint24_t num_bytes);
/**
* Checks to see if there is room in the archive for storing an AppVar/variable,
* without needing to execute a Garbage Collect.
*
* @param[in] handle AppVar/variable handle.
* @returns `true` if archiving the variable will trigger a Garbage Collect.
*/
bool ti_ArchiveHasRoomVar(uint8_t handle);
/**
* Set routines to run before and after a garbage collect would be triggered.
* A garbage collect is used to free up space in archive memory by reorganizing
* archive variable storage and removing variables marked for deletion. The OS
* is required to request the user if they want to perform the operation,
* and this request may be triggered any time a variable is moved to archive
* memory. This function is used to set up callbacks that are triggered when
* this event occurs.
*
* The OS prompt requires the LCD to be in the standard 16-bit color mode, so
* if `graphx` or custom LCD behavior is being used `gfx_End` should be used
* to restore the OS to its default state in the routine run before garbage
* collection.
*
* In the after garbage collection rotuine, the LCD state can be restored (using
* `gfx_Begin` or similar as appropriate), as well as potentially reloading
* cached variable pointers created with ti_GetDataPtr.
*
* @param[in] before Routine to run before a garbage collect. NULL sets it to do nothing.
* @param[in] after Routine to run following a garbage collect. NULL sets it to do nothing.
* */
void ti_SetGCBehavior(void (*before)(void), void (*after)(void));
/* @cond */
/* Compatibility type macros */
#define TI_PRGM_TYPE _Pragma("GCC warning \"'TI_PRGM_TYPE' is deprecated, use 'OS_TYPE_PRGM' instead\"") OS_TYPE_PRGM
#define TI_PPRGM_TYPE _Pragma("GCC warning \"'TI_PPRGM_TYPE' is deprecated, use 'OS_TYPE_PROT_PRGM' instead\"") OS_TYPE_PROT_PRGM
#define TI_TPRGM_TYPE _Pragma("GCC warning \"'TI_TPRGM_TYPE' is deprecated, use 'OS_TYPE_TMP_PRGM' instead\"") OS_TYPE_TMP_PRGM
#define TI_APPVAR_TYPE _Pragma("GCC warning \"'TI_APPVAR_TYPE' is deprecated, use 'OS_TYPE_APPVAR' instead\"") OS_TYPE_APPVAR
#define TI_STRING_TYPE _Pragma("GCC warning \"'TI_STRING_TYPE' is deprecated, use 'OS_TYPE_STR' instead\"") OS_TYPE_STR
#define TI_EQU_TYPE _Pragma("GCC warning \"'TI_EQU_TYPE' is deprecated, use 'OS_TYPE_EQU' instead\"") OS_TYPE_EQU
#define TI_ANS_TYPE _Pragma("GCC warning \"'TI_ANS_TYPE' is deprecated, use the expected type instead\"") (0x00)
#define TI_REAL_LIST_TYPE _Pragma("GCC warning \"'TI_REAL_LIST_TYPE' is deprecated, use 'OS_TYPE_REAL_LIST' instead\"") OS_TYPE_REAL_LIST
#define TI_CPLX_LIST_TYPE _Pragma("GCC warning \"'TI_CPLX_LIST_TYPE' is deprecated, use 'OS_TYPE_CPLX_LIST' instead\"") OS_TYPE_CPLX_LIST
#define TI_REAL_TYPE _Pragma("GCC warning \"'TI_REAL_TYPE' is deprecated, use 'OS_TYPE_CPLX_LIST' instead\"") OS_TYPE_REAL
#define TI_CPLX_TYPE _Pragma("GCC warning \"'TI_CPLX_TYPE' is deprecated, use 'OS_TYPE_CPLX' instead\"") OS_TYPE_CPLX
#define TI_MATRIX_TYPE _Pragma("GCC warning \"'TI_MATRIX_TYPE' is deprecated, use 'OS_TYPE_CPLX' instead\"") OS_TYPE_MATRIX
#define TI_MAX_SIZE _Pragma("GCC warning \"'TI_MAX_SIZE' is deprecated, use 'OS_VAR_MAX_SIZE' instead\"") OS_VAR_MAX_SIZE
#define ti_Program _Pragma("GCC warning \"'ti_Program' is deprecated, use 'OS_TYPE_PRGM' instead\"") OS_TYPE_PRGM
#define ti_ProtectedProgram _Pragma("GCC warning \"'ti_ProtectedProgram' is deprecated, use 'OS_TYPE_PROT_PRGM' instead\"") OS_TYPE_PROT_PRGM
#define ti_TempProgram _Pragma("GCC warning \"'ti_TempProgram' is deprecated, use 'OS_TYPE_TMP_PRGM' instead\"") OS_TYPE_TMP_PRGM
#define ti_AppVar _Pragma("GCC warning \"'ti_AppVar' is deprecated, use 'OS_TYPE_APPVAR' instead\"") OS_TYPE_APPVAR
/* Compatibility variable macros */
#define ti_Ans _Pragma("GCC warning \"'ti_Ans' is deprecated, use 'OS_VAR_ANS' instead\"") OS_VAR_ANS
#define ti_Str1 _Pragma("GCC warning \"'ti_Str1' is deprecated, use 'OS_VAR_STR1' instead\"") OS_VAR_STR1
#define ti_Str2 _Pragma("GCC warning \"'ti_Str2' is deprecated, use 'OS_VAR_STR2' instead\"") OS_VAR_STR2
#define ti_Str3 _Pragma("GCC warning \"'ti_Str3' is deprecated, use 'OS_VAR_STR3' instead\"") OS_VAR_STR3
#define ti_Str4 _Pragma("GCC warning \"'ti_Str4' is deprecated, use 'OS_VAR_STR4' instead\"") OS_VAR_STR4
#define ti_Str5 _Pragma("GCC warning \"'ti_Str5' is deprecated, use 'OS_VAR_STR5' instead\"") OS_VAR_STR5
#define ti_Str6 _Pragma("GCC warning \"'ti_Str6' is deprecated, use 'OS_VAR_STR6' instead\"") OS_VAR_STR6
#define ti_Str7 _Pragma("GCC warning \"'ti_Str7' is deprecated, use 'OS_VAR_STR7' instead\"") OS_VAR_STR7
#define ti_Str8 _Pragma("GCC warning \"'ti_Str8' is deprecated, use 'OS_VAR_STR8' instead\"") OS_VAR_STR8
#define ti_Str9 _Pragma("GCC warning \"'ti_Str9' is deprecated, use 'OS_VAR_STR9' instead\"") OS_VAR_STR9
#define ti_Str0 _Pragma("GCC warning \"'ti_Str0' is deprecated, use 'OS_VAR_STR0' instead\"") OS_VAR_STR0
#define ti_Y1 _Pragma("GCC warning \"'ti_Y1' is deprecated, use 'OS_VAR_Y1' instead\"") OS_VAR_Y1
#define ti_Y2 _Pragma("GCC warning \"'ti_Y2' is deprecated, use 'OS_VAR_Y2' instead\"") OS_VAR_Y2
#define ti_Y3 _Pragma("GCC warning \"'ti_Y3' is deprecated, use 'OS_VAR_Y3' instead\"") OS_VAR_Y3
#define ti_Y4 _Pragma("GCC warning \"'ti_Y4' is deprecated, use 'OS_VAR_Y4' instead\"") OS_VAR_Y4
#define ti_Y5 _Pragma("GCC warning \"'ti_Y5' is deprecated, use 'OS_VAR_Y5' instead\"") OS_VAR_Y5
#define ti_Y6 _Pragma("GCC warning \"'ti_Y6' is deprecated, use 'OS_VAR_Y6' instead\"") OS_VAR_Y6
#define ti_Y7 _Pragma("GCC warning \"'ti_Y7' is deprecated, use 'OS_VAR_Y7' instead\"") OS_VAR_Y7
#define ti_Y8 _Pragma("GCC warning \"'ti_Y8' is deprecated, use 'OS_VAR_Y8' instead\"") OS_VAR_Y8
#define ti_Y9 _Pragma("GCC warning \"'ti_Y9' is deprecated, use 'OS_VAR_Y9' instead\"") OS_VAR_Y9
#define ti_Y0 _Pragma("GCC warning \"'ti_Y0' is deprecated, use 'OS_VAR_Y0' instead\"") OS_VAR_Y0
#define ti_A _Pragma("GCC warning \"'ti_A' is deprecated, use 'OS_VAR_A' instead\"") OS_VAR_A
#define ti_B _Pragma("GCC warning \"'ti_B' is deprecated, use 'OS_VAR_B' instead\"") OS_VAR_B
#define ti_C _Pragma("GCC warning \"'ti_C' is deprecated, use 'OS_VAR_C' instead\"") OS_VAR_C
#define ti_D _Pragma("GCC warning \"'ti_D' is deprecated, use 'OS_VAR_D' instead\"") OS_VAR_D
#define ti_E _Pragma("GCC warning \"'ti_E' is deprecated, use 'OS_VAR_E' instead\"") OS_VAR_E
#define ti_F _Pragma("GCC warning \"'ti_F' is deprecated, use 'OS_VAR_F' instead\"") OS_VAR_F
#define ti_G _Pragma("GCC warning \"'ti_G' is deprecated, use 'OS_VAR_G' instead\"") OS_VAR_G
#define ti_H _Pragma("GCC warning \"'ti_H' is deprecated, use 'OS_VAR_H' instead\"") OS_VAR_H
#define ti_I _Pragma("GCC warning \"'ti_I' is deprecated, use 'OS_VAR_I' instead\"") OS_VAR_I
#define ti_J _Pragma("GCC warning \"'ti_J' is deprecated, use 'OS_VAR_J' instead\"") OS_VAR_J
#define ti_K _Pragma("GCC warning \"'ti_K' is deprecated, use 'OS_VAR_K' instead\"") OS_VAR_K
#define ti_L _Pragma("GCC warning \"'ti_L' is deprecated, use 'OS_VAR_L' instead\"") OS_VAR_L
#define ti_M _Pragma("GCC warning \"'ti_M' is deprecated, use 'OS_VAR_M' instead\"") OS_VAR_M
#define ti_N _Pragma("GCC warning \"'ti_N' is deprecated, use 'OS_VAR_N' instead\"") OS_VAR_N
#define ti_O _Pragma("GCC warning \"'ti_O' is deprecated, use 'OS_VAR_O' instead\"") OS_VAR_O
#define ti_P _Pragma("GCC warning \"'ti_P' is deprecated, use 'OS_VAR_P' instead\"") OS_VAR_P
#define ti_Q _Pragma("GCC warning \"'ti_Q' is deprecated, use 'OS_VAR_Q' instead\"") OS_VAR_Q
#define ti_R _Pragma("GCC warning \"'ti_R' is deprecated, use 'OS_VAR_R' instead\"") OS_VAR_R
#define ti_S _Pragma("GCC warning \"'ti_S' is deprecated, use 'OS_VAR_S' instead\"") OS_VAR_S
#define ti_T _Pragma("GCC warning \"'ti_T' is deprecated, use 'OS_VAR_T' instead\"") OS_VAR_T
#define ti_U _Pragma("GCC warning \"'ti_U' is deprecated, use 'OS_VAR_U' instead\"") OS_VAR_U
#define ti_V _Pragma("GCC warning \"'ti_V' is deprecated, use 'OS_VAR_V' instead\"") OS_VAR_V
#define ti_W _Pragma("GCC warning \"'ti_W' is deprecated, use 'OS_VAR_W' instead\"") OS_VAR_W
#define ti_X _Pragma("GCC warning \"'ti_X' is deprecated, use 'OS_VAR_X' instead\"") OS_VAR_X
#define ti_Y _Pragma("GCC warning \"'ti_Y' is deprecated, use 'OS_VAR_Y' instead\"") OS_VAR_Y
#define ti_Z _Pragma("GCC warning \"'ti_Z' is deprecated, use 'OS_VAR_Z' instead\"") OS_VAR_Z
#define ti_Theta _Pragma("GCC warning \"'ti_Theta' is deprecated, use 'OS_VAR_THETA' instead\"") OS_VAR_THETA
#define ti_MatA _Pragma("GCC warning \"'ti_MatA' is deprecated, use 'OS_VAR_MAT_A' instead\"") OS_VAR_MAT_A
#define ti_MatB _Pragma("GCC warning \"'ti_MatB' is deprecated, use 'OS_VAR_MAT_B' instead\"") OS_VAR_MAT_B
#define ti_MatC _Pragma("GCC warning \"'ti_MatC' is deprecated, use 'OS_VAR_MAT_C' instead\"") OS_VAR_MAT_C
#define ti_MatD _Pragma("GCC warning \"'ti_MatD' is deprecated, use 'OS_VAR_MAT_D' instead\"") OS_VAR_MAT_D
#define ti_MatE _Pragma("GCC warning \"'ti_MatE' is deprecated, use 'OS_VAR_MAT_E' instead\"") OS_VAR_MAT_E
#define ti_MatF _Pragma("GCC warning \"'ti_MatF' is deprecated, use 'OS_VAR_MAT_F' instead\"") OS_VAR_MAT_F
#define ti_MatG _Pragma("GCC warning \"'ti_MatG' is deprecated, use 'OS_VAR_MAT_G' instead\"") OS_VAR_MAT_G
#define ti_MatH _Pragma("GCC warning \"'ti_MatH' is deprecated, use 'OS_VAR_MAT_H' instead\"") OS_VAR_MAT_H
#define ti_MatI _Pragma("GCC warning \"'ti_MatI' is deprecated, use 'OS_VAR_MAT_I' instead\"") OS_VAR_MAT_I
#define ti_MatJ _Pragma("GCC warning \"'ti_MatJ' is deprecated, use 'OS_VAR_MAT_J' instead\"") OS_VAR_MAT_J
#define ti_L1 _Pragma("GCC warning \"'ti_L1' is deprecated, use 'OS_VAR_L1' instead\"") OS_VAR_L1
#define ti_L2 _Pragma("GCC warning \"'ti_L2' is deprecated, use 'OS_VAR_L2' instead\"") OS_VAR_L2
#define ti_L3 _Pragma("GCC warning \"'ti_L3' is deprecated, use 'OS_VAR_L3' instead\"") OS_VAR_L3
#define ti_L4 _Pragma("GCC warning \"'ti_L4' is deprecated, use 'OS_VAR_L4' instead\"") OS_VAR_L4
#define ti_L5 _Pragma("GCC warning \"'ti_L5' is deprecated, use 'OS_VAR_L5' instead\"") OS_VAR_L5
#define ti_L6 _Pragma("GCC warning \"'ti_L6' is deprecated, use 'OS_VAR_L6' instead\"") OS_VAR_L6
/* Compatibility typedefs */
typedef uint8_t ti_var_t;
/* Compatibility functions */
void ti_CloseAll(void) __attribute__((deprecated ("Use ti_Close(handle) for each handle instead")));
/* @endcond */
#ifdef __cplusplus
}
#endif
#endif