Mercurial > MadButterfly
view src/rotate.c @ 1265:ca301f6abef7
Support undo for insert key frame/rm keyframe. We will refresh all layers and scenes since it is not feasible to collect these changes and update the layers and scenes. We may scan two level only in the future to improve the performance.
| author | wycc |
|---|---|
| date | Wed, 12 Jan 2011 15:01:14 +0800 |
| parents | 586e50f82c1f |
| children |
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// -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 4; -*- // vim: sw=4:ts=8:sts=4 #include <stdio.h> #include <stdlib.h> #include <string.h> #include <math.h> #include "mb_animate.h" static float comp_mb_timeval_ratio(const mb_timeval_t *a, const mb_timeval_t *b) { float ratio; ratio = (float)MB_TIMEVAL_SEC(a) * 1000000.0 + (float)MB_TIMEVAL_USEC(a); ratio /= (float)MB_TIMEVAL_SEC(b) * 1000000.0 + (float)MB_TIMEVAL_USEC(b); return ratio; } /*! \brief Animation action to rotate a coordinate. */ struct _mb_rotate { mb_action_t action; co_aix angle1, angle2; coord_t *coord; mb_timeval_t start_time; const mb_timeval_t *playing_time; }; typedef struct _mb_rotate mb_rotate_t; static void mb_rotate_start(mb_action_t *act, const mb_timeval_t *now, const mb_timeval_t *playing_time, redraw_man_t *rdman) { mb_rotate_t *rotate = (mb_rotate_t *)act; co_aix *matrix; float _sin, _cos; _sin = sinf(rotate->angle1); _cos = cosf(rotate->angle1); matrix = rotate->coord->matrix; memset(matrix, 0, sizeof(co_aix) * 6); matrix[0] = _cos; matrix[1] = -_sin; matrix[3] = _sin; matrix[4] = _cos; rdman_coord_changed(rdman, rotate->coord); MB_TIMEVAL_CP(&rotate->start_time, now); rotate->playing_time = playing_time; } static void mb_rotate_step(mb_action_t *act, const mb_timeval_t *now, redraw_man_t *rdman) { mb_rotate_t *rotate = (mb_rotate_t *)act; mb_timeval_t diff; co_aix *matrix; float ratio; float angle; float _sin, _cos; MB_TIMEVAL_CP(&diff, now); MB_TIMEVAL_DIFF(&diff, &rotate->start_time); ratio = comp_mb_timeval_ratio(&diff, rotate->playing_time); angle = rotate->angle1 * (1 - ratio) + rotate->angle2 * ratio; _sin = sinf(angle); _cos = cosf(angle); matrix = rotate->coord->matrix; matrix[0] = _cos; matrix[1] = -_sin; matrix[3] = _sin; matrix[4] = _cos; rdman_coord_changed(rdman, rotate->coord); } static void mb_rotate_stop(mb_action_t *act, const mb_timeval_t *now, redraw_man_t *rdman) { mb_rotate_t *rotate = (mb_rotate_t *)act; co_aix *matrix; float _sin, _cos; _sin = sinf(rotate->angle2); _cos = cosf(rotate->angle2); matrix = rotate->coord->matrix; matrix[0] = _cos; matrix[1] = -_sin; matrix[3] = _sin; matrix[4] = _cos; rdman_coord_changed(rdman, rotate->coord); } static void mb_rotate_free(mb_action_t *act) { free(act); } mb_action_t *mb_rotate_new(float angle1, float angle2, coord_t *coord, mb_word_t *word) { mb_rotate_t *rotate; rotate = (mb_rotate_t *)malloc(sizeof(mb_rotate_t)); if(rotate == NULL) return NULL; rotate->angle1 = angle1; rotate->angle2 = angle2; rotate->coord = coord; rotate->action.start = mb_rotate_start; rotate->action.step = mb_rotate_step; rotate->action.stop = mb_rotate_stop; rotate->action.free = mb_rotate_free; mb_word_add_action(word, (mb_action_t *)rotate); return (mb_action_t *)rotate; }