int main(int argc, char *argv[])
{
/* notes.
* looking for total time I'm sure .... it in splt_struct: long total_time
* that's found as split in _splt_state
* note underscore.
* where is it normalised?
* found in include/libmp3splt.h
* typedef struct _splt_state splt_state;
* However this is a very OO type c code
* claim to have private var and funcs.
* maybe that total timeis not allowed.
* Need to "get" it
*/
if (argc != 2) {
fprintf(stderr, "Please provide the input file to be split as the first argument.\n");
fflush(stderr);
return EXIT_FAILURE;
}
splt_code error = SPLT_OK;
//initialisation of the main state, the main activity container, so to speak.
splt_state *state = mp3splt_new_state(NULL);
//register callback functions
mp3splt_set_message_function(state, print_message_from_library, NULL);
mp3splt_set_split_filename_function(state, print_split_filename, NULL);
//look for the available plugins
error = mp3splt_find_plugins(state);
print_confirmation_and_exit_if_error(state, error);
//set the input filename to be split
mp3splt_set_filename_to_split(state, argv[1]);
splt_struct *m=state->split;
// printf("tt: %li\n", state->split->total_time);
//append two splitpoints
splt_point *first_point = mp3splt_point_new(0, NULL);
mp3splt_append_splitpoint(state, first_point);
splt_point *second_point = mp3splt_point_new(100 * 60 * 1, NULL);
mp3splt_append_splitpoint(state, second_point);
//do the effective split
error = mp3splt_split(state);
print_confirmation_and_exit_if_error(state, error);
//free the memory of the main state
mp3splt_free_state(state);
return EXIT_SUCCESS;
}
int main(int argc, char *argv[])
{
if(argc != 3) {
printf("Usage: argument 1) mp3 file 2) associated EDL file.\n");
exit(EXIT_FAILURE);
}
int i, j, nr, nc;
int *mat=processinpf(argv[2], &nr, &nc);
int divby3=(nr*nc)%3;
if(divby3) { // EDL files have 3 columns ... bail out if there are not three columns.
printf("Error: the EDL file is not a multiple of 3. Bailing out.\n");
exit(EXIT_FAILURE);
}
#ifdef DBG
printf("nr: %d nc: %d\n", nr, nc);
#endif
int *newmat=malloc((2*nr*nc/3)*sizeof(int)); // we'll create a new matrix without the third column.
int k=0;
for(i=0;i<nr;++i)
for(j=0;j<2;++j)
newmat[k++]=mat[nc*i+j] -PBACK;
free(mat);
/* OK, time for the mp3splt code */
splt_code error = SPLT_OK; /* a start section I expect */
//initialisation of the main state, always necessary.
splt_state *state = mp3splt_new_state(NULL);
//register callback functions, necessary cos that's the way this library is built. Note references to above defined function.
mp3splt_set_message_function(state, print_message_from_library, NULL);
mp3splt_set_split_filename_function(state, print_split_filename, NULL);
//look for the available plugins .. maybe not necessary, but go with it for time being.
error = mp3splt_find_plugins(state);
print_confirmation_and_exit_if_error(state, error);
//set the input filename to be split
mp3splt_set_filename_to_split(state, argv[1]);
// OK, let's declare the points
// splt_point *p1 = NULL, *p2=NULL;
mp3splt_append_splitpoint(state, mp3splt_point_new(0, NULL));
#ifdef DBG
printf("EDL timings printed now\n");
#endif
for(i=0;i<nr;++i) {
#ifdef DBG
printf("%dm%ds%dh -> ", newmat[2*i]/6000, (newmat[2*i] - 6000*(newmat[2*i]/6000))/100, (newmat[2*i] - 6000*(newmat[2*i]/6000)) - 100*((newmat[2*i] - 6000*(newmat[2*i]/6000))/100)); // yes, these minute second conversions are hellish, no way around it.
#endif
mp3splt_append_splitpoint(state, mp3splt_point_new(newmat[2*i], NULL));
#ifdef DBG
printf("%dm%ds%dh\n", newmat[2*i+1]/6000, (newmat[2*i+1] - 6000*(newmat[2*i+1]/6000))/100, (newmat[2*i+1] - 6000*(newmat[2*i+1]/6000)) - 100*((newmat[2*i+1] - 6000*(newmat[2*i+1]/6000))/100)); // note these conversion exactly reflect what libmp3splt things it's doing. See auto output filename.
#endif
mp3splt_append_splitpoint(state, mp3splt_point_new(newmat[2*i+1], NULL));
}
mp3splt_append_splitpoint(state, mp3splt_point_new(1999*6000, NULL)); // split point for end of file
#ifdef DBG
printf("\n");
#endif
error = mp3splt_split(state);
print_confirmation_and_exit_if_error(state, error);
mp3splt_free_state(state);
free(newmat); /* we've rendered the edl matrix into a integers now, as in sampa */
return EXIT_SUCCESS;
}
static int mp3splt(segmenter_t * S)
{
char *ext = getExt(S->segment.filename);
//log_debug("mp3splt_split: entered");
mc_free(S->memory_block);
S->size = -1;
S->memory_block = NULL;
#ifndef SEGMENT_USING_FILE
FILE *f = open_memstream((char **)&S->memory_block, &S->size);
#endif
int begin_offset_in_hs = S->segment.begin_offset_in_ms / 10;
int end_offset_in_hs = -1;
if (S->segment.end_offset_in_ms >= 0) {
end_offset_in_hs = S->segment.end_offset_in_ms / 10;
}
// Creating state
splt_state *state = mp3splt_new_state(NULL);
//log_debug("new state");
mp3splt_find_plugins(state);
//log_debug("plugins found");
// Set split path and custom name
mp3splt_set_path_of_split(state, "/tmp");
//log_debug("split path set");
mp3splt_set_int_option(state, SPLT_OPT_OUTPUT_FILENAMES, SPLT_OUTPUT_CUSTOM);
//log_debug("custom split set");
// Set filename to split and pretend mode, for memory based splitting
mp3splt_set_filename_to_split(state, S->segment.filename);
//log_debug("filename to split set");
#ifndef SEGMENT_USING_FILE
mp3splt_set_int_option(state, SPLT_OPT_PRETEND_TO_SPLIT, SPLT_TRUE);
mp3splt_set_pretend_to_split_write_function(state, mp3splt_writer, (void *)f);
//log_debug("pretend split and write function set");
#endif
// Create splitpoints
splt_point *point = mp3splt_point_new(begin_offset_in_hs, NULL);
mp3splt_point_set_type(point, SPLT_SPLITPOINT);
#ifdef SEGMENT_USING_FILE
char buf[20];
sprintf(buf, "mp3cue%09d", ++splitnr);
mp3splt_point_set_name(point, buf);
#endif
mp3splt_append_splitpoint(state, point);
splt_point *skip = mp3splt_point_new(end_offset_in_hs, NULL);
mp3splt_point_set_type(skip, SPLT_SKIPPOINT);
mp3splt_append_splitpoint(state, skip);
//log_debug("split points set");
// Append cuesheet tags and merge with existing
{
splt_tags *tags = mp3splt_tags_new(NULL);
char *title = S->segment.title;
char *artist = S->segment.artist;
char *album = S->segment.album;
char *performer = S->segment.album_artist;
char year[20];
sprintf(year, "%d", S->segment.year);
char *comment = S->segment.comment;
char *genre = S->segment.genre;
char track[20];
sprintf(track, "%d", S->segment.track);
mp3splt_read_original_tags(state);
//log_debug("original tags read");
mp3splt_tags_set(tags, SPLT_TAGS_ORIGINAL, "true", NULL);
//log_debug("SPLT_TAGS_ORIGINAL set");
mp3splt_tags_set(tags,
SPLT_TAGS_TITLE, title,
SPLT_TAGS_ARTIST, artist,
SPLT_TAGS_ALBUM, album,
SPLT_TAGS_PERFORMER, performer,
SPLT_TAGS_YEAR, year,
SPLT_TAGS_COMMENT, comment, SPLT_TAGS_GENRE, genre, SPLT_TAGS_TRACK, track, NULL);
//log_debug("tags set");
mp3splt_append_tags(state, tags);
//log_debug("tag appended");
}
// split the stuff
int error = SPLT_OK;
error = mp3splt_split(state);
//log_debug("split done");
mp3splt_free_state(state);
//log_debug("state freeed");
log_debug2("mp3splt_split: result=%d", error);
#ifndef SEGMENT_USING_FILE
fclose(f);
mc_take_control(S->memory_block, S->size);
//log_debug("memory file closed");
#endif
if (error == SPLT_OK_SPLIT || error == SPLT_OK_SPLIT_EOF) {
#ifdef SEGMENT_USING_FILE
char fn[250];
sprintf(fn, "/tmp/%s.%s", buf, ext);
FILE *f = fopen(fn, "rb");
FILE *g = open_memstream((char **)&S->memory_block, &S->size);
int size;
char fbuf[10240];
while ((size = fread(fbuf, 1, 10240, f)) > 0) {
fwrite(fbuf, size, 1, g);
}
fclose(f);
fclose(g);
unlink(fn);
#endif
mc_free(ext);
return SEGMENTER_OK;
} else {
mc_free(ext);
return SEGMENTER_ERR_CREATE;
}
}
