Mercurial > MadButterfly
annotate src/animate.c @ 704:d950487bd9f9
Flush mb_rt, immediately, after redraw_all()
| author | Thinker K.F. Li <thinker@branda.to> |
|---|---|
| date | Fri, 13 Aug 2010 11:10:49 +0800 |
| parents | f90c60967a9c |
| children | 586e50f82c1f |
| rev | line source |
|---|---|
| 111 | 1 /*! \file |
| 2 * \brief Animation tools. | |
| 3 * | |
| 117 | 4 * \sa \ref ani |
| 111 | 5 */ |
| 6 /*! \page ani What is Animation? | |
| 41 | 7 * |
| 117 | 8 * Animation is a program to move, resize, rotate, ..., changing |
| 9 * graphics on the output screen. | |
| 10 * | |
| 11 * \image html program.png | |
| 12 * | |
| 41 | 13 * XXX: Program is a sequence of actions duration a perior. |
| 14 * Actions are grouped into words. A program defines | |
| 15 * the order and time of playing of words. A word | |
| 16 * defines how long to perform a set of actions. Actions | |
| 17 * in a word are performed concurrently. | |
| 45 | 18 * |
| 19 * Animation shapes are updated periodically. Every action | |
| 20 * are working with start, step, and stop 3 calls. start is | |
| 21 * called when start time the word, contain it, due. step is | |
| 22 * called periodically in duration of playing time start at | |
| 23 * 'start time'. When the clock run out the playing time of | |
| 24 * a word, it call stop of actions in the word. | |
| 111 | 25 * |
| 26 * A program is driven by a timer. Once a program is started, it registers | |
| 27 * with timer for periodic running. \ref mb_tman_t is timer of | |
| 28 * MadButterfly. The update frequence is 10fps by default, now. | |
| 29 * | |
| 117 | 30 * \section use_progm How to Use Animation Program? |
| 31 * Following code block creates a program with 2 words. First word is | |
| 32 * started immediately after the program been started. It is consisted | |
| 33 * for 1 second. Second word is started 1 second after the program been | |
| 34 * started. It is consisted for 2 seconds. There are 2 action in | |
| 35 * first word, they shift graphics managed by coord1 & coord2 by (50,50) and | |
| 36 * (-50,50) pixels, respectly. The shifting is performed incrementally | |
| 37 * in 1 second. Second word shifts coord1 and coord2, too. And, graphics | |
| 38 * managed by coord3 are hidden at end of the word. At end of code in the | |
| 39 * block, mb_progm_start() starts the program. 3rd argument of | |
| 40 * mb_progm_start() must be current wall time. | |
| 41 * | |
| 42 * \code | |
| 43 * progm = mb_progm_new(10, &rdman); | |
| 44 * | |
| 45 * MB_TIMEVAL_SET(&start, 0, 0); | |
| 46 * MB_TIMEVAL_SET(&playing, 1, 0); | |
| 47 * word = mb_progm_next_word(progm, &start, &playing); | |
| 48 * | |
| 49 * act = mb_shift_new(50, 50, coord1, word); | |
| 50 * act = mb_shift_new(-50, 50, coord2, word); | |
| 51 * | |
| 52 * MB_TIMEVAL_SET(&start, 1, 0); | |
| 53 * MB_TIMEVAL_SET(&playing, 2, 0); | |
| 54 * word = mb_progm_next_word(progm, &start, &playing); | |
| 55 * | |
| 56 * act = mb_shift_new(0, 20, coord1, word); | |
| 57 * act = mb_shift_new(0, -20, coord2, word); | |
| 58 * act = mb_visibility_new(VIS_HIDDEN, coord3, word); | |
| 59 * | |
| 60 * gettimeofday(&tv, NULL); | |
| 61 * MB_TIMEVAL_SET(&mbtv, tv.tv_sec, tv.tv_usec); | |
| 62 * mb_progm_start(progm, tman, &mbtv); | |
| 63 * \endcode | |
| 64 * | |
| 65 * | |
| 66 * \sa \ref animate.c | |
| 41 | 67 */ |
| 68 #include <stdio.h> | |
| 69 #include <stdlib.h> | |
| 70 #include <string.h> | |
|
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71 #include "mb_types.h" |
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72 #include "mb_redraw_man.h" |
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73 #include "mb_timer.h" |
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74 #include "mb_animate.h" |
| 41 | 75 |
| 76 | |
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77 #define STEP_INTERVAL 90000 |
| 41 | 78 #define ASSERT(x) |
| 79 | |
| 80 /*! \brief A word is a set of concurrent actions in a program. | |
| 81 */ | |
| 82 struct _mb_word { | |
| 83 mb_timeval_t start_time; /*!< time to start the word */ | |
| 84 mb_timeval_t playing_time; /*!< time duration of playing */ | |
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85 mb_timeval_t abs_start, abs_stop; |
| 41 | 86 STAILQ(mb_action_t) actions; |
| 87 }; | |
| 88 | |
| 89 /*! \brief A program describe a series of actions to animate shapes. | |
| 51 | 90 * |
| 91 * first_playing is an index to one of words. It always points to | |
| 92 * the first of words that is playing or waiting for playing. | |
| 41 | 93 */ |
| 94 struct _mb_progm { | |
| 95 redraw_man_t *rdman; | |
| 96 | |
| 46 | 97 mb_timeval_t start_time; |
| 41 | 98 int first_playing; /*!< first playing word. */ |
| 99 mb_tman_t *tman; | |
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100 subject_t *complete; /*!< notify when a program is completed. */ |
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101 mb_timer_t *cur_timer; |
| 41 | 102 |
| 103 int n_words; | |
| 104 int max_words; | |
| 105 mb_word_t words[1]; | |
| 106 }; | |
| 107 | |
| 119 | 108 /*! \brief Create a program object. |
| 109 * | |
| 110 * \param max_words is maximum number of words the program can hold. | |
| 111 * \param rdman is a rdman that show graphics manipulated by it. | |
| 112 */ | |
| 41 | 113 mb_progm_t *mb_progm_new(int max_words, redraw_man_t *rdman) { |
| 114 mb_progm_t *progm; | |
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115 #ifndef UNITTEST |
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116 ob_factory_t *factory; |
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117 #endif /* UNITTEST */ |
| 41 | 118 int i; |
| 119 | |
| 120 progm = (mb_progm_t *)malloc(sizeof(mb_progm_t) + | |
| 121 (sizeof(mb_word_t) * (max_words - 1))); | |
| 122 if(progm == NULL) | |
| 123 return NULL; | |
| 124 | |
| 125 progm->rdman = rdman; | |
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126 |
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127 #ifndef UNITTEST |
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128 factory = rdman_get_ob_factory(rdman); |
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129 progm->complete = subject_new(factory, progm, OBJT_PROGM); |
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130 if(progm->complete == NULL) { |
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131 free(progm); |
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132 return NULL; |
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133 } |
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134 #endif /* UNITTEST */ |
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135 |
| 41 | 136 progm->n_words = 0; |
| 137 progm->max_words = max_words; | |
| 138 for(i = 0; i < max_words; i++) | |
| 139 STAILQ_INIT(progm->words[i].actions); | |
| 140 return progm; | |
| 141 } | |
| 142 | |
| 143 void mb_progm_free(mb_progm_t *progm) { | |
| 144 int n_words; | |
| 145 mb_word_t *word; | |
| 146 mb_action_t *cur_act; | |
| 147 int i; | |
| 148 | |
| 149 n_words = progm->n_words; | |
| 150 for(i = 0; i < n_words; i++) { | |
| 151 word = progm->words + i; | |
| 152 for(cur_act = STAILQ_HEAD(word->actions); | |
| 153 cur_act != NULL; | |
| 154 cur_act = STAILQ_HEAD(word->actions)) { | |
| 155 STAILQ_REMOVE(word->actions, mb_action_t, next, cur_act); | |
| 156 cur_act->free(cur_act); | |
| 157 } | |
| 158 } | |
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159 |
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160 #ifndef UNITTEST |
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161 subject_free(progm->complete); |
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162 #endif /* UNITTEST */ |
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163 |
| 41 | 164 free(progm); |
| 165 } | |
| 166 | |
| 167 /*! \brief Add a new word into a program. | |
| 168 * | |
| 169 * The start time of new word should bigger or equal to last one. | |
| 170 * The time should be specified in incremental order. | |
| 171 */ | |
| 172 mb_word_t *mb_progm_next_word(mb_progm_t *progm, | |
| 173 const mb_timeval_t *start, | |
| 174 const mb_timeval_t *playing) { | |
| 175 mb_word_t *word; | |
| 176 if(progm->n_words >= progm->max_words) | |
| 177 return NULL; | |
| 178 if(progm->n_words && | |
| 179 MB_TIMEVAL_LATER(&progm->words[progm->n_words - 1].start_time, start)) | |
| 180 return NULL; | |
| 181 word = progm->words + progm->n_words++; | |
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182 MB_TIMEVAL_CP(&word->start_time, start); |
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183 MB_TIMEVAL_CP(&word->playing_time, playing); |
| 41 | 184 return word; |
| 185 } | |
| 186 | |
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187 void mb_word_add_action(mb_word_t *word, mb_action_t *act) { |
| 41 | 188 STAILQ_INS_TAIL(word->actions, mb_action_t, next, act); |
| 189 } | |
| 190 | |
| 191 static void mb_word_start(mb_word_t *word, const mb_timeval_t *tmo, | |
| 192 const mb_timeval_t *now, redraw_man_t *rdman) { | |
| 42 | 193 mb_action_t *act; |
| 194 | |
| 195 for(act = STAILQ_HEAD(word->actions); | |
| 196 act != NULL; | |
| 197 act = STAILQ_NEXT(mb_action_t, next, act)) { | |
| 198 act->start(act, tmo, &word->playing_time, rdman); | |
| 199 } | |
| 41 | 200 } |
| 201 | |
| 202 static void mb_word_step(mb_word_t *word, const mb_timeval_t *tmo, | |
| 203 const mb_timeval_t *now, redraw_man_t *rdman) { | |
| 42 | 204 mb_action_t *act; |
| 205 | |
| 206 for(act = STAILQ_HEAD(word->actions); | |
| 207 act != NULL; | |
| 208 act = STAILQ_NEXT(mb_action_t, next, act)) { | |
| 209 act->step(act, tmo, rdman); | |
| 210 } | |
| 41 | 211 } |
| 212 | |
| 213 static void mb_word_stop(mb_word_t *word, const mb_timeval_t *tmo, | |
| 214 const mb_timeval_t *now, redraw_man_t *rdman) { | |
| 42 | 215 mb_action_t *act; |
| 216 | |
| 217 for(act = STAILQ_HEAD(word->actions); | |
| 218 act != NULL; | |
| 219 act = STAILQ_NEXT(mb_action_t, next, act)) { | |
| 220 act->stop(act, tmo, rdman); | |
| 221 } | |
| 41 | 222 } |
| 223 | |
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224 /*! \brief Time stepping for a program. |
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225 * |
| 46 | 226 * Any two actions in concurrent words never change the same attribute. |
| 227 * Start time of words in a program are specified in incremental order. | |
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228 * |
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229 * \note Program will take a big step at last monent. It is because |
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230 * mb_progm_step() running mb_word_stop() if the word being stop |
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231 * between now and next_tmo. It is not obviously if time stepping |
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232 * small. |
| 46 | 233 */ |
| 41 | 234 static void mb_progm_step(const mb_timeval_t *tmo, |
| 120 | 235 const mb_timeval_t *now, |
| 236 void *arg) { | |
| 41 | 237 mb_progm_t *progm = (mb_progm_t *)arg; |
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238 #ifndef UNITTEST |
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239 /*! \todo Leverage aspective programming to prevent problem of unittest. |
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240 */ |
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241 mb_progm_complete_t comp_evt; |
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242 #endif /* UNITTEST */ |
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243 mb_timeval_t next_tmo; |
| 41 | 244 mb_word_t *word; |
| 245 mb_timer_t *timer; | |
| 246 int i; | |
| 247 | |
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248 MB_TIMEVAL_SET(&next_tmo, 0, STEP_INTERVAL); |
| 120 | 249 MB_TIMEVAL_ADD(&next_tmo, now); |
| 41 | 250 |
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251 /* _step() or _stop() words that in playing. */ |
| 41 | 252 i = progm->first_playing; |
| 253 for(word = progm->words + i; | |
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254 i < progm->n_words && MB_TIMEVAL_LATER(tmo, &word->abs_start); |
| 41 | 255 word = progm->words + ++i) { |
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256 if(MB_TIMEVAL_LATER(tmo, &word->abs_stop)) |
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257 continue; |
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258 if(MB_TIMEVAL_LATER(&next_tmo, &word->abs_stop)) |
| 46 | 259 mb_word_stop(word, tmo, now, progm->rdman); |
| 260 else | |
| 41 | 261 mb_word_step(word, tmo, now, progm->rdman); |
| 262 } | |
| 263 | |
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264 /* Start words that their abs_start is in duration |
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265 * from now to timeout for next update. |
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266 */ |
| 41 | 267 for(word = progm->words + i; |
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268 i < progm->n_words && MB_TIMEVAL_LATER(&next_tmo, &word->abs_start); |
| 41 | 269 word = progm->words + ++i) { |
| 270 mb_word_start(word, tmo, now, progm->rdman); | |
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271 if(MB_TIMEVAL_LATER(&next_tmo, &word->abs_stop)) |
| 46 | 272 mb_word_stop(word, tmo, now, progm->rdman); |
| 41 | 273 } |
| 274 | |
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275 /* Find a new first_playing if any consequence words, following current |
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276 * first_playing word, are stoped. |
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277 */ |
| 46 | 278 i = progm->first_playing; |
| 279 for(word = progm->words + i; | |
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280 i < progm->n_words && MB_TIMEVAL_LATER(&next_tmo, &word->abs_stop); |
| 46 | 281 word = progm->words + ++i) { |
| 282 progm->first_playing++; | |
| 283 } | |
| 284 | |
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285 /* Setup timeout for next update. */ |
| 41 | 286 if(progm->first_playing < progm->n_words) { |
| 42 | 287 word = progm->words + progm->first_playing; |
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288 if(MB_TIMEVAL_LATER(&word->abs_start, &next_tmo)) |
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289 MB_TIMEVAL_CP(&next_tmo, &word->abs_start); |
| 46 | 290 timer = mb_tman_timeout(progm->tman, &next_tmo, |
| 291 mb_progm_step, progm); | |
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292 progm->cur_timer = timer; |
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293 } else { |
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294 /* Make program to complete. */ |
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295 #ifndef UNITTEST |
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296 comp_evt.event.type = EVT_PROGM_COMPLETE; |
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297 comp_evt.event.tgt = comp_evt.event.cur_tgt = progm->complete; |
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298 comp_evt.progm = progm; |
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299 subject_notify(progm->complete, &comp_evt.event); |
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300 #endif /* UNITTEST */ |
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301 progm->cur_timer = NULL; |
| 41 | 302 } |
| 303 } | |
| 304 | |
| 305 void mb_progm_start(mb_progm_t *progm, mb_tman_t *tman, | |
| 306 mb_timeval_t *now) { | |
| 307 mb_timer_t *timer; | |
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308 mb_word_t *word; |
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309 int i; |
| 41 | 310 |
| 311 if(progm->n_words == 0) | |
| 312 return; | |
| 313 | |
| 314 progm->tman = tman; | |
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315 MB_TIMEVAL_CP(&progm->start_time, now); |
| 41 | 316 progm->first_playing = 0; |
| 317 | |
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318 for(i = 0; i < progm->n_words; i++) { |
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319 word = progm->words + i; |
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320 MB_TIMEVAL_CP(&word->abs_start, &word->start_time); |
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321 MB_TIMEVAL_ADD(&word->abs_start, now); |
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322 MB_TIMEVAL_CP(&word->abs_stop, &word->abs_start); |
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323 MB_TIMEVAL_ADD(&word->abs_stop, &word->playing_time); |
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324 } |
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325 |
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326 if(MB_TIMEVAL_EQ(&progm->words[0].abs_start, now)) { |
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327 mb_progm_step(now, now, progm); |
| 41 | 328 return; |
| 329 } | |
| 330 | |
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331 timer = mb_tman_timeout(tman, &progm->words[0].abs_start, |
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332 mb_progm_step, progm); |
| 41 | 333 ASSERT(timer != NULL); |
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334 |
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335 /* We need timer to abort it. */ |
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336 progm->cur_timer = timer; |
| 41 | 337 } |
| 338 | |
|
332
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339 void mb_progm_finish(mb_progm_t *progm) { |
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340 mb_timeval_t infi; |
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341 |
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342 mb_progm_abort(progm); |
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343 MB_TIMEVAL_SET(&infi, 0x7fffffff,0); |
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344 mb_progm_step(&progm->start_time, &infi,progm); |
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345 } |
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346 void mb_progm_abort(mb_progm_t *progm) { |
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347 /*! \todo Make sure abort release resources. */ |
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348 if(progm->cur_timer) { |
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349 mb_tman_remove(progm->tman, progm->cur_timer); |
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350 progm->cur_timer = NULL; |
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351 } |
| 42 | 352 } |
| 353 | |
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354 /*! \brief Return event subject for completion of a program. |
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355 */ |
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356 subject_t *mb_progm_get_complete(mb_progm_t *progm) { |
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357 return progm->complete; |
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358 } |
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359 |
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360 static void _free_completed_hdlr(event_t *event, void *arg) { |
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361 mb_progm_t *progm = (mb_progm_t *)arg; |
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362 |
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363 mb_progm_free(progm); |
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364 } |
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365 |
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366 /*! \brief The program should be freed after completed. */ |
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367 void mb_progm_free_completed(mb_progm_t *progm) { |
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368 subject_t *complete; |
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369 |
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370 complete = mb_progm_get_complete(progm); |
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371 subject_add_observer(complete, _free_completed_hdlr, progm); |
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372 } |
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373 |
| 50 | 374 #ifdef UNITTEST |
| 375 | |
| 376 #include <CUnit/Basic.h> | |
| 377 | |
| 378 typedef struct _mb_dummy mb_dummy_t; | |
| 379 | |
| 380 struct _mb_dummy { | |
| 381 mb_action_t action; | |
| 382 int id; | |
| 383 int *logidx; | |
| 384 int *logs; | |
| 385 }; | |
| 386 | |
| 387 | |
| 388 static void mb_dummy_start(mb_action_t *act, | |
| 389 const mb_timeval_t *now, | |
| 390 const mb_timeval_t *playing_time, | |
| 391 redraw_man_t *rdman) { | |
| 392 mb_dummy_t *dummy = (mb_dummy_t *)act; | |
| 393 | |
| 394 dummy->logs[(*dummy->logidx)++] = dummy->id; | |
| 395 } | |
| 396 | |
| 397 static void mb_dummy_step(mb_action_t *act, | |
| 398 const mb_timeval_t *now, | |
| 399 redraw_man_t *rdman) { | |
| 400 mb_dummy_t *dummy = (mb_dummy_t *)act; | |
| 401 | |
| 402 dummy->logs[(*dummy->logidx)++] = dummy->id; | |
| 403 } | |
| 404 | |
| 405 static void mb_dummy_stop(mb_action_t *act, | |
| 406 const mb_timeval_t *now, | |
| 407 redraw_man_t *rdman) { | |
| 408 mb_dummy_t *dummy = (mb_dummy_t *)act; | |
| 409 | |
| 410 dummy->logs[(*dummy->logidx)++] = dummy->id; | |
| 411 } | |
| 412 | |
| 413 static void mb_dummy_free(mb_action_t *act) { | |
| 414 free(act); | |
| 415 } | |
| 416 | |
| 417 mb_action_t *mb_dummy_new(int id, int *logidx, int *logs, mb_word_t *word) { | |
| 418 mb_dummy_t *dummy; | |
| 419 | |
| 420 dummy = (mb_dummy_t *)malloc(sizeof(mb_dummy_t)); | |
| 421 if(dummy == NULL) | |
| 422 return NULL; | |
| 423 | |
| 424 dummy->id = id; | |
| 425 dummy->logidx = logidx; | |
| 426 dummy->logs = logs; | |
| 427 | |
| 428 dummy->action.start = mb_dummy_start; | |
| 429 dummy->action.step = mb_dummy_step; | |
| 430 dummy->action.stop = mb_dummy_stop; | |
| 431 dummy->action.free = mb_dummy_free; | |
| 432 | |
| 433 mb_word_add_action(word, (mb_action_t *)dummy); | |
| 434 | |
| 435 return (mb_action_t *)dummy; | |
| 436 } | |
| 437 | |
| 438 void test_animate_words(void) { | |
| 439 mb_progm_t *progm; | |
| 440 mb_word_t *word; | |
| 441 mb_action_t *acts[4]; | |
| 442 mb_tman_t *tman; | |
| 443 mb_timeval_t tv1, tv2, now, tmo_after; | |
| 444 int logcnt = 0; | |
| 445 int logs[256]; | |
| 446 int r; | |
| 447 | |
| 448 tman = mb_tman_new(); | |
| 449 CU_ASSERT(tman != NULL); | |
| 450 | |
| 451 progm = mb_progm_new(3, NULL); | |
| 452 CU_ASSERT(progm != NULL); | |
| 453 | |
| 454 MB_TIMEVAL_SET(&tv1, 1, 0); | |
| 455 MB_TIMEVAL_SET(&tv2, 0, STEP_INTERVAL * 3); | |
| 456 word = mb_progm_next_word(progm, &tv1, &tv2); | |
| 457 CU_ASSERT(word != NULL); | |
| 458 acts[0] = mb_dummy_new(0, &logcnt, logs, word); | |
| 459 CU_ASSERT(acts[0] != NULL); | |
| 460 | |
| 461 MB_TIMEVAL_SET(&tv1, 1, STEP_INTERVAL * 4 / 3); | |
| 462 MB_TIMEVAL_SET(&tv2, 0, STEP_INTERVAL / 3); | |
| 463 word = mb_progm_next_word(progm, &tv1, &tv2); | |
| 464 CU_ASSERT(word != NULL); | |
| 465 acts[1] = mb_dummy_new(1, &logcnt, logs, word); | |
| 466 CU_ASSERT(acts[1] != NULL); | |
| 467 | |
| 468 MB_TIMEVAL_SET(&tv1, 1, STEP_INTERVAL * 2); | |
| 469 MB_TIMEVAL_SET(&tv2, 0, STEP_INTERVAL * 3); | |
| 470 word = mb_progm_next_word(progm, &tv1, &tv2); | |
| 471 CU_ASSERT(word != NULL); | |
| 472 acts[2] = mb_dummy_new(2, &logcnt, logs, word); | |
| 473 CU_ASSERT(acts[2] != NULL); | |
| 474 | |
| 475 MB_TIMEVAL_SET(&now, 0, 0); | |
| 476 mb_progm_start(progm, tman, &now); | |
| 477 | |
| 478 r = mb_tman_next_timeout(tman, &now, &tmo_after); | |
| 479 CU_ASSERT(r == 0); | |
| 480 CU_ASSERT(MB_TIMEVAL_SEC(&tmo_after) == 1 && | |
| 481 MB_TIMEVAL_USEC(&tmo_after) == 0); | |
| 482 | |
| 483 /* 1.0s */ | |
| 484 MB_TIMEVAL_ADD(&now, &tmo_after); | |
| 485 mb_tman_handle_timeout(tman, &now); | |
| 486 CU_ASSERT(logcnt == 1); | |
| 487 | |
| 488 r = mb_tman_next_timeout(tman, &now, &tmo_after); | |
| 489 CU_ASSERT(r == 0); | |
| 490 CU_ASSERT(MB_TIMEVAL_SEC(&tmo_after) == 0 && | |
| 491 MB_TIMEVAL_USEC(&tmo_after) == STEP_INTERVAL); | |
| 492 | |
| 493 /* 1.1s */ | |
| 494 MB_TIMEVAL_ADD(&now, &tmo_after); | |
| 495 mb_tman_handle_timeout(tman, &now); | |
| 496 CU_ASSERT(logcnt == 4); | |
| 497 | |
| 498 r = mb_tman_next_timeout(tman, &now, &tmo_after); | |
| 499 CU_ASSERT(r == 0); | |
| 500 CU_ASSERT(MB_TIMEVAL_SEC(&tmo_after) == 0 && | |
| 501 MB_TIMEVAL_USEC(&tmo_after) == STEP_INTERVAL); | |
| 502 | |
| 503 /* 1.2s */ | |
| 504 MB_TIMEVAL_ADD(&now, &tmo_after); | |
| 505 mb_tman_handle_timeout(tman, &now); | |
| 506 CU_ASSERT(logcnt == 6); | |
| 507 | |
| 508 r = mb_tman_next_timeout(tman, &now, &tmo_after); | |
| 509 CU_ASSERT(r == 0); | |
| 510 CU_ASSERT(MB_TIMEVAL_SEC(&tmo_after) == 0 && | |
| 511 MB_TIMEVAL_USEC(&tmo_after) == STEP_INTERVAL); | |
| 512 | |
| 513 /* 1.3s */ | |
| 514 MB_TIMEVAL_ADD(&now, &tmo_after); | |
| 515 mb_tman_handle_timeout(tman, &now); | |
| 516 CU_ASSERT(logcnt == 8); | |
| 517 | |
| 518 r = mb_tman_next_timeout(tman, &now, &tmo_after); | |
| 519 CU_ASSERT(r == 0); | |
| 520 CU_ASSERT(MB_TIMEVAL_SEC(&tmo_after) == 0 && | |
| 521 MB_TIMEVAL_USEC(&tmo_after) == STEP_INTERVAL); | |
| 522 | |
| 523 /* 1.4s */ | |
| 524 MB_TIMEVAL_ADD(&now, &tmo_after); | |
| 525 mb_tman_handle_timeout(tman, &now); | |
| 526 CU_ASSERT(logcnt == 9); | |
| 527 | |
| 528 r = mb_tman_next_timeout(tman, &now, &tmo_after); | |
| 529 CU_ASSERT(r == 0); | |
| 530 CU_ASSERT(MB_TIMEVAL_SEC(&tmo_after) == 0 && | |
| 531 MB_TIMEVAL_USEC(&tmo_after) == STEP_INTERVAL); | |
| 532 | |
| 533 /* 1.5s */ | |
| 534 MB_TIMEVAL_ADD(&now, &tmo_after); | |
| 535 mb_tman_handle_timeout(tman, &now); | |
| 536 CU_ASSERT(logcnt == 10); | |
| 537 | |
| 538 r = mb_tman_next_timeout(tman, &now, &tmo_after); | |
| 539 CU_ASSERT(r == -1); | |
| 540 | |
| 541 mb_progm_free(progm); | |
| 542 mb_tman_free(tman); | |
| 543 } | |
| 544 | |
| 545 CU_pSuite get_animate_suite(void) { | |
| 546 CU_pSuite suite; | |
| 547 | |
| 548 suite = CU_add_suite("Suite_animate", NULL, NULL); | |
| 549 if(suite == NULL) | |
| 550 return NULL; | |
| 551 | |
| 552 CU_ADD_TEST(suite, test_animate_words); | |
| 553 | |
| 554 return suite; | |
| 555 } | |
| 556 | |
| 557 #endif /* UNITTEST */ |