Update of /cvsroot/pure-data/externals/PDContainer/help
In directory sc8-pr-cvs1.sourceforge.net:/tmp/cvs-serv11457/help
Modified Files:
help-h_deque.pd help-h_list.pd help-h_map.pd
help-h_multimap.pd help-h_multiset.pd help-h_priority_queue.pd
help-h_queue.pd help-h_set.pd help-h_stack.pd help-h_vector.pd
Log Message:
new help files for xml
Index: help-h_stack.pd
===================================================================
RCS file: /cvsroot/pure-data/externals/PDContainer/help/help-h_stack.pd,v
retrieving revision 1.2
retrieving revision 1.3
diff -C2 -d -r1.2 -r1.3
*** help-h_stack.pd 4 Apr 2005 12:42:58 -0000 1.2
--- help-h_stack.pd 5 May 2005 22:59:34 -0000 1.3
***************
*** 1,77 ****
! #N canvas 489 0 796 753 10;
#X obj 161 579 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
! #X obj 516 108 cnv 15 204 104 empty empty empty 20 12 0 14 -66577 -66577
! 0;
! #X obj 518 110 cnv 15 200 100 empty empty ReadMe: 65 15 0 14 -262131
! -143491 0;
! #N canvas 205 0 993 742 Container_Explanation 0;
! #X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 16 15 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
-66577 0;
! #X text 254 23 general explation of;
! #X text 254 40 the datastructures;
! #X text 23 655 A vector is a sequence that supports access to all elements
! via index (like an array) and fast insertion and removal of elements
! at the end. The number of elements in a vector may vary dynamically.
! ;
! #X obj 189 627 h_vector;
! #X text 500 654 Fast insertion and removal anywhere \, all the other
! elements move up. But a list provides only sequential access (not via
! index !). A list is a doubly linked list.;
! #X obj 680 628 h_list;
! #X obj 189 773 h_deque;
! #X text 498 801 A queue is a "first in first out" (FIFO) data structure.
! That is \, elements are added to the back of the queue (push) and may
! be removed from the front (pop).;
! #X obj 679 774 h_queue;
! #X text 22 951 A priority queue is also a "first in first out" (FIFO)
! data structure \, but you can give the elements a priority. So the
! elements with a higher priority are automatically inserted before all
! other elements with a lower priority.;
! #X obj 154 924 h_priority_queue;
! #X text 20 800 A deque (double ended queue \, pronounced "deck") is
! very much like a vector: like vector \, it is a sequence that supports
! access to all elements via index. The main way in which deque differs
! from vector is that fast insertion and removal of elements is possible
! at the beginning _and_ the end.;
! #X text 22 232 Maps represent a mapping from one type (the key type)
! to another type (the value type). You can associate a value with a
! key \, or find the value associated with a key \, very efficiently.
! Map is a Sorted Associative Container and it is also a Unique Associative
! Container \, meaning that no two elements have the same key. (see Multimap
! for more elements with the same key);
! #X obj 188 203 h_map;
! #X text 492 231 Multimaps are just like maps except that a key can
! be associated with several values. Multimap is a Sorted Associative
! Container and also a Multiple Associative Container \, meaning that
! there is no limit on the number of elements with the same key. (see
! also Map);
! #X obj 643 201 h_multimap;
! #X text 24 419 Sets allow you to add and delete elements. Afterwards
! you can look if an element is set. Set is a Sorted Associative Container
! and a Unique Associative Container \, meaning that no two elements
! are the same. (see Multiset to have several copies of the same element)
! ;
! #X obj 187 392 h_set;
! #X text 493 419 Multisets are just like sets \, except that you can
! have several copies of the same element. Multiset is a Sorted Associative
! Container and a Multiple Associative Container \, meaning that two
! or more elements may be identical. (see also Set);
! #X obj 642 391 h_multiset;
! #X text 339 167 :::: ASSOCIATIVE CONTAINERS ::::;
! #X text 393 592 :::: SEQUENCES ::::;
! #X text 289 1099 (look for help at all the objects for more information)
! ;
! #X text 35 87 PDContainer contains the following datastructures:;
! #X text 399 86 map \, nultimap \, set \, multiset \, vector \, list
! \, deque \, queue \, stack \, priority queue;
! #X obj 679 916 h_stack;
! #X text 495 950 Stack is a "last in first out" (LIFO) data structure:
the element at the top of a stack is the one that was most recently
added (push). Top outputs the elements from the top without removing
! it \, pop outputs and removes it.;
! #X restore 534 178 pd Container_Explanation;
#N canvas 674 0 511 843 General_Concept 0;
#X text 37 165 This library was made for algorithmic composition and
--- 1,60 ----
! #N canvas 0 0 796 754 10;
#X obj 161 579 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
-66577 0;
! #X text 295 36 help file of;
! #X text 40 98 init arg: namespace;
! #X msg 430 438 clear;
! #X msg 430 532 help;
! #X obj 509 588 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X msg 430 335 getnamespace;
! #X msg 430 476 clearall;
! #X obj 430 630 print BBB;
! #X obj 82 622 print AAA;
! #X text 541 360 <- change namespace;
! #X msg 430 359 namespace grix;
! #X text 478 438 <- clear all the data of the;
! #X text 499 453 current namespace;
! #X text 498 478 <- clear all the data in all;
! #X text 519 493 same containers (maybe;
! #X text 521 508 you shouldn't use this);
! #X text 530 337 <- get current namespace;
! #X text 429 283 general operations:;
! #X text 287 53 ::: h_stack :::;
! #X obj 430 563 h_stack data;
! #X floatatom 469 606 5 0 0 0 - - -;
! #X obj 82 557 h_stack data;
! #X floatatom 121 599 5 0 0 0 - - -;
! #X msg 430 391 getsize;
! #X text 493 391 <- puts out the size of the;
! #X text 514 407 stack at the 2nd outlet;
! #X msg 82 358 push \$1;
! #X floatatom 82 332 5 0 0 0 - - -;
! #X symbolatom 130 332 10 0 0 0 - - -;
! #X text 148 359 <- push some data to the;
! #X text 169 374 top of the stack;
! #X msg 82 407 top;
! #X text 117 408 <- get the data from the top;
! #X text 138 423 of the stack without;
! #X text 138 436 removing it;
! #X msg 82 462 pop;
! #X text 513 606 <- nr of elements;
! #X text 187 579 <- bang if stack is empty;
! #X text 117 463 <- removes the data from the;
! #X text 138 478 top of the stack;
! #X text 137 494 (but without putting it;
! #X text 146 508 out !!!);
! #X text 38 133 Stack is a "last in first out" (LIFO) data structure:
the element at the top of a stack is the one that was most recently
added (push). Top outputs the elements from the top without removing
! it \, pop removes it without putting it out.;
! #X obj 500 24 cnv 15 204 120 empty empty empty 20 12 0 14 -66577 -66577
! 0;
! #X obj 502 26 cnv 15 200 116 empty empty ReadMe: 65 15 0 14 -262131
! -143491 0;
#N canvas 674 0 511 843 General_Concept 0;
#X text 37 165 This library was made for algorithmic composition and
***************
*** 116,121 ****
#X restore 39 503 pd namespace_example;
#X text 161 554 ::: DATATYPES :::;
- #X text 41 579 In the containers you can save all of the build-in datatypes:
- lists \, floats \, and symbol.;
#X text 38 296 As storage datastructures I implemented the C++ STL
(Standard Template Library) Containers in PD. Currently following datastructures
--- 99,102 ----
***************
*** 146,157 ****
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
- #X text 111 659 ( If you use lists as key you can also make a multidimensional
- matrix ! );
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs with lists \, you don't have to update the
! send-receive pairs all the time \, you can use send-receive "namespaces"
\, ...;
#X connect 1 0 0 0;
#X connect 2 0 0 1;
--- 127,138 ----
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs \, you don't have to update the send-receive
! pairs all the time (like [value]) \, you can use send-receive "namespaces"
\, ...;
+ #X text 111 659 ( If you use lists as key you can also make a multidimensional
+ matrix ... );
#X connect 1 0 0 0;
#X connect 2 0 0 1;
***************
*** 169,179 ****
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 159 669 ::: SAVE/LOAD :::;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into the specific container. (In
! future I'll also make a XML-fileformat \, which will be easier to edit
! !);
! #N canvas 215 140 716 536 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
--- 150,158 ----
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X text 41 579 In the containers you can save all of the PD build-in
! datatypes: lists \, floats \, and symbol.;
! #N canvas 215 140 716 600 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
***************
*** 185,199 ****
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 368 320 h_list \$0-local;
! #X msg 368 235 save example.dat;
! #X msg 393 284 print;
! #X text 493 236 <- save data as file;
#X obj 140 477 h_set blablu;
! #X msg 140 405 read example.dat;
! #X text 274 405 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
--- 164,185 ----
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 333 321 h_list \$0-local;
! #X msg 358 285 print;
#X obj 140 477 h_set blablu;
! #X msg 140 413 read example.dat;
! #X text 274 413 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
+ #X msg 333 207 saveXML example.xml;
+ #X text 457 238 <- save data as file;
+ #X msg 333 238 save example.dat;
+ #X text 477 208 <- save data as XML file;
+ #X msg 140 378 readXML example.xml;
+ #X text 283 379 <- read the same XML data now into a h_set;
+ #X text 22 529 Please use the XML fileformat if possible \, because
+ it's easier to edit in an external editor and the XML parser is much
+ more stable !;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
***************
*** 204,282 ****
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 10 0 8 0;
! #X connect 13 0 12 0;
! #X connect 16 0 12 0;
! #X restore 42 771 pd save_load_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X restore 552 147 pd General_Concept;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
-66577 0;
! #X text 295 36 help file of;
! #X text 175 698 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)gmx.at>
! \, 2004;
! #X text 40 98 init arg: namespace;
! #X msg 430 438 clear;
! #X msg 430 532 help;
! #X obj 509 588 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X msg 430 335 getnamespace;
! #X msg 430 476 clearall;
! #X obj 430 630 print BBB;
! #X obj 82 622 print AAA;
! #X text 541 360 <- change namespace;
! #X msg 430 359 namespace grix;
! #X text 478 438 <- clear all the data of the;
! #X text 499 453 current namespace;
! #X text 498 478 <- clear all the data in all;
! #X text 519 493 same containers (maybe;
! #X text 521 508 you shouldn't use this);
! #X text 530 337 <- get current namespace;
! #X text 429 283 general operations:;
! #X text 287 53 ::: h_stack :::;
! #X obj 430 563 h_stack data;
! #X floatatom 469 606 5 0 0 0 - - -;
! #X obj 82 557 h_stack data;
! #X floatatom 121 599 5 0 0 0 - - -;
! #X msg 430 391 getsize;
! #X text 493 391 <- puts out the size of the;
! #X text 514 407 stack at the 2nd outlet;
! #X msg 82 358 push \$1;
! #X floatatom 82 332 5 0 0 0 - - -;
! #X symbolatom 130 332 10 0 0 0 - - -;
! #X text 148 359 <- push some data to the;
! #X text 169 374 top of the stack;
! #X msg 82 407 top;
! #X text 117 408 <- get the data from the top;
! #X text 138 423 of the stack without;
! #X text 138 436 removing it;
! #X msg 82 462 pop;
! #X text 513 606 <- nr of elements;
! #X text 187 579 <- bang if stack is empty;
! #X text 117 463 <- removes the data from the;
! #X text 138 478 top of the stack;
! #X text 137 494 (but without putting it;
! #X text 146 508 out !!!);
! #X text 38 133 Stack is a "last in first out" (LIFO) data structure:
the element at the top of a stack is the one that was most recently
added (push). Top outputs the elements from the top without removing
! it \, pop removes it without putting it out.;
! #X connect 10 0 27 0;
! #X connect 11 0 27 0;
! #X connect 13 0 27 0;
! #X connect 14 0 27 0;
! #X connect 18 0 27 0;
! #X connect 27 0 15 0;
! #X connect 27 1 28 0;
! #X connect 27 2 12 0;
! #X connect 29 0 16 0;
! #X connect 29 1 30 0;
! #X connect 29 2 0 0;
! #X connect 31 0 27 0;
! #X connect 34 0 29 0;
! #X connect 35 0 34 0;
! #X connect 36 0 34 0;
! #X connect 39 0 29 0;
! #X connect 43 0 29 0;
--- 190,367 ----
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 11 0 10 0;
! #X connect 14 0 10 0;
! #X connect 15 0 8 0;
! #X connect 17 0 8 0;
! #X connect 19 0 10 0;
! #X restore 40 797 pd save_load_example;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into a container. You can also
! load data from other containers. Please use the XML fileformat if possible
! \, because it's easier to edit in an external editor and the XML parser
! is much more stable.;
! #X text 164 671 ::: SAVE/LOAD :::;
! #X restore 536 62 pd General_Concept;
! #N canvas 205 0 993 742 Container_Explanation 0;
! #X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 16 15 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
-66577 0;
! #X text 254 23 general explation of;
! #X text 254 40 the datastructures;
! #X text 23 655 A vector is a sequence that supports access to all elements
! via index (like an array) and fast insertion and removal of elements
! at the end. The number of elements in a vector may vary dynamically.
! ;
! #X obj 189 627 h_vector;
! #X text 500 654 Fast insertion and removal anywhere \, all the other
! elements move up. But a list provides only sequential access (not via
! index !). A list is a doubly linked list.;
! #X obj 680 628 h_list;
! #X obj 189 773 h_deque;
! #X text 498 801 A queue is a "first in first out" (FIFO) data structure.
! That is \, elements are added to the back of the queue (push) and may
! be removed from the front (pop).;
! #X obj 679 774 h_queue;
! #X text 22 951 A priority queue is also a "first in first out" (FIFO)
! data structure \, but you can give the elements a priority. So the
! elements with a higher priority are automatically inserted before all
! other elements with a lower priority.;
! #X obj 154 924 h_priority_queue;
! #X text 20 800 A deque (double ended queue \, pronounced "deck") is
! very much like a vector: like vector \, it is a sequence that supports
! access to all elements via index. The main way in which deque differs
! from vector is that fast insertion and removal of elements is possible
! at the beginning _and_ the end.;
! #X text 22 232 Maps represent a mapping from one type (the key type)
! to another type (the value type). You can associate a value with a
! key \, or find the value associated with a key \, very efficiently.
! Map is a Sorted Associative Container and it is also a Unique Associative
! Container \, meaning that no two elements have the same key. (see Multimap
! for more elements with the same key);
! #X obj 188 203 h_map;
! #X text 492 231 Multimaps are just like maps except that a key can
! be associated with several values. Multimap is a Sorted Associative
! Container and also a Multiple Associative Container \, meaning that
! there is no limit on the number of elements with the same key. (see
! also Map);
! #X obj 643 201 h_multimap;
! #X text 24 419 Sets allow you to add and delete elements. Afterwards
! you can look if an element is set. Set is a Sorted Associative Container
! and a Unique Associative Container \, meaning that no two elements
! are the same. (see Multiset to have several copies of the same element)
! ;
! #X obj 187 392 h_set;
! #X text 493 419 Multisets are just like sets \, except that you can
! have several copies of the same element. Multiset is a Sorted Associative
! Container and a Multiple Associative Container \, meaning that two
! or more elements may be identical. (see also Set);
! #X obj 642 391 h_multiset;
! #X text 339 167 :::: ASSOCIATIVE CONTAINERS ::::;
! #X text 393 592 :::: SEQUENCES ::::;
! #X text 289 1099 (look for help at all the objects for more information)
! ;
! #X text 35 87 PDContainer contains the following datastructures:;
! #X text 399 86 map \, nultimap \, set \, multiset \, vector \, list
! \, deque \, queue \, stack \, priority queue;
! #X obj 679 916 h_stack;
! #X text 495 950 Stack is a "last in first out" (LIFO) data structure:
the element at the top of a stack is the one that was most recently
added (push). Top outputs the elements from the top without removing
! it \, pop outputs and removes it.;
! #X restore 518 90 pd Container_Explanation;
! #N canvas 254 0 927 786 Fileformats 0;
! #X obj 38 27 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 40 29 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 259 56 PDContainer;
! #X text 257 38 different fileformats of;
! #X text 472 116 Please use the XML fileformat if possible \, because
! it's easier to edit in an external editor and the XML parser is much
! more stable!;
! #X text 40 582 s go;
! #X text 40 569 f 2 s wow f 2;
! #X text 40 599 f 23;
! #X text 38 634 (f=float \, s=symbol);
! #X text 37 171 a) single elements: are the containers h_vector \, h_list
! \, h_deque \, h_set \, h_multiset;
! #X text 471 172 b) key-value pairs: are the containers h_map and h_multimap
! ;
! #X text 469 276 2.element: symbol go;
! #X text 476 698 f 2 s wow - f 2;
! #X text 476 712 s go - s not f 34;
! #X text 476 729 f 23 - s op;
! #X text 488 244 key: list 2 wow;
! #X text 470 229 1.element:;
! #X text 488 258 value: float 2;
! #X text 490 291 key: symbol go;
! #X text 490 305 value: list symbol not float 34;
! #X text 39 243 1.element: list 2 wow 2;
! #X text 39 257 2.element: symbol go;
! #X text 38 272 3.element: float 23;
! #X text 37 223 a) example1:;
! #X text 470 212 b) example2:;
! #X text 37 312 a) example1 \, XML:;
! #X text 37 339 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 37 353 <PDContainer type="h_list">;
! #X text 54 366 <element>;
! #X text 70 379 <f> 2 </f>;
! #X text 70 405 <f> 2 </f>;
! #X text 56 418 </element>;
! #X text 70 391 <s> wow </s>;
! #X text 56 431 <element>;
! #X text 57 455 </element>;
! #X text 72 443 <s> go </s>;
! #X text 56 468 <element>;
! #X text 57 492 </element>;
! #X text 72 480 <f> 23 </f>;
! #X text 41 506 </PDContainer>;
! #X text 41 542 a) example1 \, textfile:;
! #X text 39 115 You can save the data of the containers to XML files
! and normal textfiles (see General_Concept).;
! #X text 469 375 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 469 389 <PDContainer type="h_list">;
! #X text 486 402 <element>;
! #X text 519 430 <f> 2 </f>;
! #X text 520 482 <f> 2 </f>;
! #X text 488 506 </element>;
! #X text 519 442 <s> wow </s>;
! #X text 475 634 </PDContainer>;
! #X text 469 348 b) example2 \, XML:;
! #X text 503 415 <key>;
! #X text 504 456 </key>;
! #X text 503 468 <value>;
! #X text 504 494 </value>;
! #X text 487 519 <element>;
! #X text 489 621 </element>;
! #X text 504 532 <key>;
! #X text 505 559 </key>;
! #X text 504 571 <value>;
! #X text 505 609 </value>;
! #X text 520 545 <s> go </s>;
! #X text 521 584 <s> not </s>;
! #X text 521 597 <f> 34 </f>;
! #X text 476 668 b) example2 \, textfile:;
! #X restore 550 116 pd Fileformats;
! #X text 218 709 htttp://grh.mur.at/software/pdcontainer.html;
! #X text 178 693 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)mur.at>
! \, 2004;
! #X connect 5 0 22 0;
! #X connect 6 0 22 0;
! #X connect 8 0 22 0;
! #X connect 9 0 22 0;
! #X connect 13 0 22 0;
! #X connect 22 0 10 0;
! #X connect 22 1 23 0;
! #X connect 22 2 7 0;
! #X connect 24 0 11 0;
! #X connect 24 1 25 0;
! #X connect 24 2 0 0;
! #X connect 26 0 22 0;
! #X connect 29 0 24 0;
! #X connect 30 0 29 0;
! #X connect 31 0 29 0;
! #X connect 34 0 24 0;
! #X connect 38 0 24 0;
Index: help-h_priority_queue.pd
===================================================================
RCS file: /cvsroot/pure-data/externals/PDContainer/help/help-h_priority_queue.pd,v
retrieving revision 1.1.1.1
retrieving revision 1.2
diff -C2 -d -r1.1.1.1 -r1.2
*** help-h_priority_queue.pd 25 Oct 2004 19:02:32 -0000 1.1.1.1
--- help-h_priority_queue.pd 5 May 2005 22:59:34 -0000 1.2
***************
*** 2,77 ****
#X obj 261 702 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
! #X obj 516 108 cnv 15 204 104 empty empty empty 20 12 0 14 -66577 -66577
! 0;
! #X obj 518 110 cnv 15 200 100 empty empty ReadMe: 65 15 0 14 -262131
! -143491 0;
! #N canvas 205 0 993 742 Container_Explanation 0;
! #X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 16 15 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
-66577 0;
! #X text 254 23 general explation of;
! #X text 254 40 the datastructures;
! #X text 23 655 A vector is a sequence that supports access to all elements
! via index (like an array) and fast insertion and removal of elements
! at the end. The number of elements in a vector may vary dynamically.
! ;
! #X obj 189 627 h_vector;
! #X text 500 654 Fast insertion and removal anywhere \, all the other
! elements move up. But a list provides only sequential access (not via
! index !). A list is a doubly linked list.;
! #X obj 680 628 h_list;
! #X obj 189 773 h_deque;
! #X text 498 801 A queue is a "first in first out" (FIFO) data structure.
! That is \, elements are added to the back of the queue (push) and may
! be removed from the front (pop).;
! #X obj 679 774 h_queue;
! #X text 22 951 A priority queue is also a "first in first out" (FIFO)
! data structure \, but you can give the elements a priority. So the
! elements with a higher priority are automatically inserted before all
! other elements with a lower priority.;
! #X obj 154 924 h_priority_queue;
! #X text 20 800 A deque (double ended queue \, pronounced "deck") is
! very much like a vector: like vector \, it is a sequence that supports
! access to all elements via index. The main way in which deque differs
! from vector is that fast insertion and removal of elements is possible
! at the beginning _and_ the end.;
! #X text 22 232 Maps represent a mapping from one type (the key type)
! to another type (the value type). You can associate a value with a
! key \, or find the value associated with a key \, very efficiently.
! Map is a Sorted Associative Container and it is also a Unique Associative
! Container \, meaning that no two elements have the same key. (see Multimap
! for more elements with the same key);
! #X obj 188 203 h_map;
! #X text 492 231 Multimaps are just like maps except that a key can
! be associated with several values. Multimap is a Sorted Associative
! Container and also a Multiple Associative Container \, meaning that
! there is no limit on the number of elements with the same key. (see
! also Map);
! #X obj 643 201 h_multimap;
! #X text 24 419 Sets allow you to add and delete elements. Afterwards
! you can look if an element is set. Set is a Sorted Associative Container
! and a Unique Associative Container \, meaning that no two elements
! are the same. (see Multiset to have several copies of the same element)
! ;
! #X obj 187 392 h_set;
! #X text 493 419 Multisets are just like sets \, except that you can
! have several copies of the same element. Multiset is a Sorted Associative
! Container and a Multiple Associative Container \, meaning that two
! or more elements may be identical. (see also Set);
! #X obj 642 391 h_multiset;
! #X text 339 167 :::: ASSOCIATIVE CONTAINERS ::::;
! #X text 393 592 :::: SEQUENCES ::::;
! #X text 289 1099 (look for help at all the objects for more information)
! ;
! #X text 35 87 PDContainer contains the following datastructures:;
! #X text 399 86 map \, nultimap \, set \, multiset \, vector \, list
! \, deque \, queue \, stack \, priority queue;
! #X obj 679 916 h_stack;
! #X text 495 950 Stack is a "last in first out" (LIFO) data structure:
! the element at the top of a stack is the one that was most recently
! added (push). Top outputs the elements from the top without removing
! it \, pop outputs and removes it.;
! #X restore 534 178 pd Container_Explanation;
#N canvas 674 0 511 843 General_Concept 0;
#X text 37 165 This library was made for algorithmic composition and
--- 2,65 ----
#X obj 261 702 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
-66577 0;
! #X text 295 36 help file of;
! #X text 40 98 init arg: namespace;
! #X msg 430 438 clear;
! #X msg 430 532 help;
! #X obj 607 586 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X msg 430 335 getnamespace;
! #X msg 430 476 clearall;
! #X obj 430 630 print BBB;
! #X text 541 360 <- change namespace;
! #X msg 430 359 namespace grix;
! #X text 478 438 <- clear all the data of the;
! #X text 499 453 current namespace;
! #X text 498 478 <- clear all the data in all;
! #X text 519 493 same containers (maybe;
! #X text 521 508 you shouldn't use this);
! #X text 530 337 <- get current namespace;
! #X text 429 283 general operations:;
! #X floatatom 518 606 5 0 0 0 - - -;
! #X floatatom 172 717 5 0 0 0 - - -;
! #X msg 430 391 getsize;
! #X text 493 391 <- puts out the size of the;
! #X text 514 407 stack at the 2nd outlet;
! #X text 153 600 removing it;
! #X msg 84 626 pop;
! #X text 285 53 ::: h_queue :::;
! #X text 562 606 <- nr of elements;
! #X text 119 627 <- removes the data fom the front;
! #X text 40 128 A priority queue is also a "first in first out" (FIFO)
! data structure like a queue \, but you can give the elements a priority.
! So the elements with a higher priority are automatically inserted before
! all other elements with a lower priority.;
! #X msg 84 571 top;
! #X text 132 572 <- get the data from the top;
! #X text 153 587 of the container without;
! #X text 140 642 of the container;
! #X text 287 702 <- bang if container is empty;
! #X obj 79 486 print AAA;
! #X msg 256 431 list damm 4345 it;
! #X floatatom 256 337 5 0 0 0 - - -;
! #X symbolatom 256 355 10 0 0 0 - - -;
! #X msg 256 407 hacka 45;
! #X msg 256 384 3 4 krschi;
! #X text 253 309 value:;
! #X msg 79 358 push \$1;
! #X floatatom 79 336 5 0 0 0 - - -;
! #X text 77 308 priority:;
! #X text 81 263 add data to the priority_queue:;
! #X obj 79 463 h_priority_queue \$0-aetsch;
! #X obj 84 743 print CCC;
! #X obj 84 678 h_priority_queue \$0-aetsch;
! #X obj 430 563 h_priority_queue \$0-aetsch;
! #X obj 500 24 cnv 15 204 120 empty empty empty 20 12 0 14 -66577 -66577
! 0;
! #X obj 502 26 cnv 15 200 116 empty empty ReadMe: 65 15 0 14 -262131
! -143491 0;
#N canvas 674 0 511 843 General_Concept 0;
#X text 37 165 This library was made for algorithmic composition and
***************
*** 116,121 ****
#X restore 39 503 pd namespace_example;
#X text 161 554 ::: DATATYPES :::;
- #X text 41 579 In the containers you can save all of the build-in datatypes:
- lists \, floats \, and symbol.;
#X text 38 296 As storage datastructures I implemented the C++ STL
(Standard Template Library) Containers in PD. Currently following datastructures
--- 104,107 ----
***************
*** 146,157 ****
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
- #X text 111 659 ( If you use lists as key you can also make a multidimensional
- matrix ! );
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs with lists \, you don't have to update the
! send-receive pairs all the time \, you can use send-receive "namespaces"
\, ...;
#X connect 1 0 0 0;
#X connect 2 0 0 1;
--- 132,143 ----
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs \, you don't have to update the send-receive
! pairs all the time (like [value]) \, you can use send-receive "namespaces"
\, ...;
+ #X text 111 659 ( If you use lists as key you can also make a multidimensional
+ matrix ... );
#X connect 1 0 0 0;
#X connect 2 0 0 1;
***************
*** 169,179 ****
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 159 669 ::: SAVE/LOAD :::;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into the specific container. (In
! future I'll also make a XML-fileformat \, which will be easier to edit
! !);
! #N canvas 215 140 716 536 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
--- 155,163 ----
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X text 41 579 In the containers you can save all of the PD build-in
! datatypes: lists \, floats \, and symbol.;
! #N canvas 215 140 716 600 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
***************
*** 185,199 ****
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 368 320 h_list \$0-local;
! #X msg 368 235 save example.dat;
! #X msg 393 284 print;
! #X text 493 236 <- save data as file;
#X obj 140 477 h_set blablu;
! #X msg 140 405 read example.dat;
! #X text 274 405 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
--- 169,190 ----
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 333 321 h_list \$0-local;
! #X msg 358 285 print;
#X obj 140 477 h_set blablu;
! #X msg 140 413 read example.dat;
! #X text 274 413 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
+ #X msg 333 207 saveXML example.xml;
+ #X text 457 238 <- save data as file;
+ #X msg 333 238 save example.dat;
+ #X text 477 208 <- save data as XML file;
+ #X msg 140 378 readXML example.xml;
+ #X text 283 379 <- read the same XML data now into a h_set;
+ #X text 22 529 Please use the XML fileformat if possible \, because
+ it's easier to edit in an external editor and the XML parser is much
+ more stable !;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
***************
*** 204,292 ****
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 10 0 8 0;
! #X connect 13 0 12 0;
! #X connect 16 0 12 0;
! #X restore 42 771 pd save_load_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X restore 552 147 pd General_Concept;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
-66577 0;
! #X text 295 36 help file of;
! #X text 201 805 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)gmx.at>
\, 2004;
! #X text 40 98 init arg: namespace;
! #X msg 430 438 clear;
! #X msg 430 532 help;
! #X obj 607 586 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X msg 430 335 getnamespace;
! #X msg 430 476 clearall;
! #X obj 430 630 print BBB;
! #X text 541 360 <- change namespace;
! #X msg 430 359 namespace grix;
! #X text 478 438 <- clear all the data of the;
! #X text 499 453 current namespace;
! #X text 498 478 <- clear all the data in all;
! #X text 519 493 same containers (maybe;
! #X text 521 508 you shouldn't use this);
! #X text 530 337 <- get current namespace;
! #X text 429 283 general operations:;
! #X floatatom 518 606 5 0 0 0 - - -;
! #X floatatom 172 717 5 0 0 0 - - -;
! #X msg 430 391 getsize;
! #X text 493 391 <- puts out the size of the;
! #X text 514 407 stack at the 2nd outlet;
! #X text 153 600 removing it;
! #X msg 84 626 pop;
! #X text 285 53 ::: h_queue :::;
! #X text 562 606 <- nr of elements;
! #X text 119 627 <- removes the data fom the front;
! #X text 40 128 A priority queue is also a "first in first out" (FIFO)
! data structure like a queue \, but you can give the elements a priority.
! So the elements with a higher priority are automatically inserted before
! all other elements with a lower priority.;
! #X msg 84 571 top;
! #X text 132 572 <- get the data from the top;
! #X text 153 587 of the container without;
! #X text 140 642 of the container;
! #X text 287 702 <- bang if container is empty;
! #X obj 79 486 print AAA;
! #X msg 256 431 list damm 4345 it;
! #X floatatom 256 337 5 0 0 0 - - -;
! #X symbolatom 256 355 10 0 0 0 - - -;
! #X msg 256 407 hacka 45;
! #X msg 256 384 3 4 krschi;
! #X text 253 309 value:;
! #X msg 79 358 push \$1;
! #X floatatom 79 336 5 0 0 0 - - -;
! #X text 77 308 priority:;
! #X text 81 263 add data to the priority_queue:;
! #X obj 79 463 h_priority_queue \$0-aetsch;
! #X obj 84 743 print CCC;
! #X obj 84 678 h_priority_queue \$0-aetsch;
! #X obj 430 563 h_priority_queue \$0-aetsch;
! #X connect 10 0 55 0;
! #X connect 11 0 55 0;
! #X connect 13 0 55 0;
! #X connect 14 0 55 0;
! #X connect 17 0 55 0;
! #X connect 27 0 55 0;
! #X connect 31 0 54 0;
! #X connect 36 0 54 0;
! #X connect 42 0 52 1;
! #X connect 43 0 52 1;
! #X connect 44 0 52 1;
! #X connect 45 0 52 1;
! #X connect 46 0 52 1;
! #X connect 48 0 52 0;
#X connect 49 0 48 0;
! #X connect 52 0 41 0;
! #X connect 54 0 53 0;
! #X connect 54 1 26 0;
! #X connect 54 2 0 0;
! #X connect 55 0 15 0;
! #X connect 55 1 25 0;
! #X connect 55 2 12 0;
--- 195,377 ----
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 11 0 10 0;
! #X connect 14 0 10 0;
! #X connect 15 0 8 0;
! #X connect 17 0 8 0;
! #X connect 19 0 10 0;
! #X restore 40 797 pd save_load_example;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into a container. You can also
! load data from other containers. Please use the XML fileformat if possible
! \, because it's easier to edit in an external editor and the XML parser
! is much more stable.;
! #X text 164 671 ::: SAVE/LOAD :::;
! #X restore 536 62 pd General_Concept;
! #N canvas 205 0 993 742 Container_Explanation 0;
! #X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 16 15 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
-66577 0;
! #X text 254 23 general explation of;
! #X text 254 40 the datastructures;
! #X text 23 655 A vector is a sequence that supports access to all elements
! via index (like an array) and fast insertion and removal of elements
! at the end. The number of elements in a vector may vary dynamically.
! ;
! #X obj 189 627 h_vector;
! #X text 500 654 Fast insertion and removal anywhere \, all the other
! elements move up. But a list provides only sequential access (not via
! index !). A list is a doubly linked list.;
! #X obj 680 628 h_list;
! #X obj 189 773 h_deque;
! #X text 498 801 A queue is a "first in first out" (FIFO) data structure.
! That is \, elements are added to the back of the queue (push) and may
! be removed from the front (pop).;
! #X obj 679 774 h_queue;
! #X text 22 951 A priority queue is also a "first in first out" (FIFO)
! data structure \, but you can give the elements a priority. So the
! elements with a higher priority are automatically inserted before all
! other elements with a lower priority.;
! #X obj 154 924 h_priority_queue;
! #X text 20 800 A deque (double ended queue \, pronounced "deck") is
! very much like a vector: like vector \, it is a sequence that supports
! access to all elements via index. The main way in which deque differs
! from vector is that fast insertion and removal of elements is possible
! at the beginning _and_ the end.;
! #X text 22 232 Maps represent a mapping from one type (the key type)
! to another type (the value type). You can associate a value with a
! key \, or find the value associated with a key \, very efficiently.
! Map is a Sorted Associative Container and it is also a Unique Associative
! Container \, meaning that no two elements have the same key. (see Multimap
! for more elements with the same key);
! #X obj 188 203 h_map;
! #X text 492 231 Multimaps are just like maps except that a key can
! be associated with several values. Multimap is a Sorted Associative
! Container and also a Multiple Associative Container \, meaning that
! there is no limit on the number of elements with the same key. (see
! also Map);
! #X obj 643 201 h_multimap;
! #X text 24 419 Sets allow you to add and delete elements. Afterwards
! you can look if an element is set. Set is a Sorted Associative Container
! and a Unique Associative Container \, meaning that no two elements
! are the same. (see Multiset to have several copies of the same element)
! ;
! #X obj 187 392 h_set;
! #X text 493 419 Multisets are just like sets \, except that you can
! have several copies of the same element. Multiset is a Sorted Associative
! Container and a Multiple Associative Container \, meaning that two
! or more elements may be identical. (see also Set);
! #X obj 642 391 h_multiset;
! #X text 339 167 :::: ASSOCIATIVE CONTAINERS ::::;
! #X text 393 592 :::: SEQUENCES ::::;
! #X text 289 1099 (look for help at all the objects for more information)
! ;
! #X text 35 87 PDContainer contains the following datastructures:;
! #X text 399 86 map \, nultimap \, set \, multiset \, vector \, list
! \, deque \, queue \, stack \, priority queue;
! #X obj 679 916 h_stack;
! #X text 495 950 Stack is a "last in first out" (LIFO) data structure:
! the element at the top of a stack is the one that was most recently
! added (push). Top outputs the elements from the top without removing
! it \, pop outputs and removes it.;
! #X restore 518 90 pd Container_Explanation;
! #N canvas 254 0 927 786 Fileformats 0;
! #X obj 38 27 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 40 29 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 259 56 PDContainer;
! #X text 257 38 different fileformats of;
! #X text 472 116 Please use the XML fileformat if possible \, because
! it's easier to edit in an external editor and the XML parser is much
! more stable!;
! #X text 40 582 s go;
! #X text 40 569 f 2 s wow f 2;
! #X text 40 599 f 23;
! #X text 38 634 (f=float \, s=symbol);
! #X text 37 171 a) single elements: are the containers h_vector \, h_list
! \, h_deque \, h_set \, h_multiset;
! #X text 471 172 b) key-value pairs: are the containers h_map and h_multimap
! ;
! #X text 469 276 2.element: symbol go;
! #X text 476 698 f 2 s wow - f 2;
! #X text 476 712 s go - s not f 34;
! #X text 476 729 f 23 - s op;
! #X text 488 244 key: list 2 wow;
! #X text 470 229 1.element:;
! #X text 488 258 value: float 2;
! #X text 490 291 key: symbol go;
! #X text 490 305 value: list symbol not float 34;
! #X text 39 243 1.element: list 2 wow 2;
! #X text 39 257 2.element: symbol go;
! #X text 38 272 3.element: float 23;
! #X text 37 223 a) example1:;
! #X text 470 212 b) example2:;
! #X text 37 312 a) example1 \, XML:;
! #X text 37 339 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 37 353 <PDContainer type="h_list">;
! #X text 54 366 <element>;
! #X text 70 379 <f> 2 </f>;
! #X text 70 405 <f> 2 </f>;
! #X text 56 418 </element>;
! #X text 70 391 <s> wow </s>;
! #X text 56 431 <element>;
! #X text 57 455 </element>;
! #X text 72 443 <s> go </s>;
! #X text 56 468 <element>;
! #X text 57 492 </element>;
! #X text 72 480 <f> 23 </f>;
! #X text 41 506 </PDContainer>;
! #X text 41 542 a) example1 \, textfile:;
! #X text 39 115 You can save the data of the containers to XML files
! and normal textfiles (see General_Concept).;
! #X text 469 375 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 469 389 <PDContainer type="h_list">;
! #X text 486 402 <element>;
! #X text 519 430 <f> 2 </f>;
! #X text 520 482 <f> 2 </f>;
! #X text 488 506 </element>;
! #X text 519 442 <s> wow </s>;
! #X text 475 634 </PDContainer>;
! #X text 469 348 b) example2 \, XML:;
! #X text 503 415 <key>;
! #X text 504 456 </key>;
! #X text 503 468 <value>;
! #X text 504 494 </value>;
! #X text 487 519 <element>;
! #X text 489 621 </element>;
! #X text 504 532 <key>;
! #X text 505 559 </key>;
! #X text 504 571 <value>;
! #X text 505 609 </value>;
! #X text 520 545 <s> go </s>;
! #X text 521 584 <s> not </s>;
! #X text 521 597 <f> 34 </f>;
! #X text 476 668 b) example2 \, textfile:;
! #X restore 550 116 pd Fileformats;
! #X text 224 810 htttp://grh.mur.at/software/pdcontainer.html;
! #X text 184 794 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)mur.at>
\, 2004;
! #X connect 5 0 50 0;
! #X connect 6 0 50 0;
! #X connect 8 0 50 0;
! #X connect 9 0 50 0;
! #X connect 12 0 50 0;
! #X connect 22 0 50 0;
! #X connect 26 0 49 0;
! #X connect 31 0 49 0;
! #X connect 37 0 47 1;
! #X connect 38 0 47 1;
! #X connect 39 0 47 1;
! #X connect 40 0 47 1;
! #X connect 41 0 47 1;
! #X connect 43 0 47 0;
! #X connect 44 0 43 0;
! #X connect 47 0 36 0;
#X connect 49 0 48 0;
! #X connect 49 1 21 0;
! #X connect 49 2 0 0;
! #X connect 50 0 10 0;
! #X connect 50 1 20 0;
! #X connect 50 2 7 0;
Index: help-h_vector.pd
===================================================================
RCS file: /cvsroot/pure-data/externals/PDContainer/help/help-h_vector.pd,v
retrieving revision 1.1.1.1
retrieving revision 1.2
diff -C2 -d -r1.1.1.1 -r1.2
*** help-h_vector.pd 25 Oct 2004 19:02:32 -0000 1.1.1.1
--- help-h_vector.pd 5 May 2005 22:59:34 -0000 1.2
***************
*** 1,8 ****
! #N canvas 498 0 830 880 10;
#X obj 157 404 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
! #X obj 509 44 cnv 15 204 104 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 511 46 cnv 15 200 100 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
--- 1,88 ----
! #N canvas 0 54 830 880 10;
#X obj 157 404 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 295 36 help file of;
! #X text 40 98 init arg: namespace;
! #X msg 480 313 print;
! #X msg 480 357 clear;
! #X msg 480 671 help;
! #X obj 566 721 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X msg 480 254 getnamespace;
! #X msg 480 395 clearall;
! #X obj 480 770 print BBB;
! #X obj 71 443 print AAA;
! #X text 591 279 <- change namespace;
! #X msg 480 278 namespace grix;
! #X text 527 314 <- print all the data of the;
! #X text 546 329 current namespace;
! #X text 528 357 <- clear all the data of the;
! #X text 549 372 current namespace;
! #X text 548 397 <- clear all the data in all;
! #X text 569 412 same containers (maybe;
! #X text 571 427 you shouldn't use this);
! #X text 580 256 <- get current namespace;
! #X text 512 213 general operations:;
! #X msg 297 366 list damm 4345 it;
! #X floatatom 297 272 5 0 0 0 - - -;
! #X symbolatom 297 290 10 0 0 0 - - -;
! #X msg 297 342 hacka 45;
! #X msg 297 319 3 4 krschi;
! #X text 307 241 value:;
! #X text 279 54 ::: h_vector :::;
! #X text 31 143 A vector is a sequence that supports access to all elements
! via index (like an array) and fast insertion and removal of elements
! at the end. The number of elements in a vector may vary dynamically.
! ;
! #X msg 480 608 resize \$1;
! #X msg 480 642 getsize;
! #X floatatom 488 580 5 0 0 0 - - -;
! #X text 556 609 <- resizes the vector;
! #X obj 480 698 h_vector klax;
! #X floatatom 523 741 5 0 0 0 - - -;
! #X text 545 641 <- get the size (at 2nd;
! #X text 567 655 outlet);
! #X text 567 740 <- size of vector;
! #X obj 71 383 h_vector klax;
! #X floatatom 114 422 5 0 0 0 - - -;
! #X msg 71 290 get \$1;
! #X floatatom 77 269 5 0 0 0 - - -;
! #X floatatom 77 226 5 0 0 0 - - -;
! #X msg 71 247 set \$1;
! #X msg 71 698 insert \$1;
! #X floatatom 78 671 5 0 0 0 - - -;
! #X floatatom 79 721 5 0 0 0 - - -;
! #X msg 70 744 remove \$1;
! #X text 127 246 <- changes the value;
! #X text 148 260 at that index;
! #X text 145 304 at that index;
! #X text 124 290 <- get the value;
! #X text 177 404 <- bang if not found;
! #X msg 70 526 pushback gsdfg 34;
! #X msg 70 572 popback;
! #X obj 70 622 h_vector klax;
! #X floatatom 70 481 5 0 0 0 - - -;
! #X msg 70 503 pushback \$1;
! #X text 166 503 <- inserts the data at the;
! #X text 223 518 back of the vector;
! #X text 230 532 (so the size will;
! #X text 230 545 increase);
! #X text 131 571 <- removes the element from the;
! #X text 154 586 back (so the size will decrease);
! #X msg 178 768 some data;
! #X text 152 671 remove and insert at index:;
! #X text 188 708 If you need this very often you;
! #X text 188 722 should better use a list or a map;
! #X text 187 694 Thats not very fast with a vector!;
! #X text 188 735 (or something else) !;
! #X obj 70 768 h_vector klax;
! #X symbolatom 115 481 10 0 0 0 - - -;
! #X obj 500 24 cnv 15 204 120 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 502 26 cnv 15 200 116 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
***************
*** 48,53 ****
#X restore 39 503 pd namespace_example;
#X text 161 554 ::: DATATYPES :::;
- #X text 41 579 In the containers you can save all of the build-in datatypes:
- lists \, floats \, and symbol.;
#X text 38 296 As storage datastructures I implemented the C++ STL
(Standard Template Library) Containers in PD. Currently following datastructures
--- 128,131 ----
***************
*** 78,89 ****
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
- #X text 111 659 ( If you use lists as key you can also make a multidimensional
- matrix ! );
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs with lists \, you don't have to update the
! send-receive pairs all the time \, you can use send-receive "namespaces"
\, ...;
#X connect 1 0 0 0;
#X connect 2 0 0 1;
--- 156,167 ----
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs \, you don't have to update the send-receive
! pairs all the time (like [value]) \, you can use send-receive "namespaces"
\, ...;
+ #X text 111 659 ( If you use lists as key you can also make a multidimensional
+ matrix ... );
#X connect 1 0 0 0;
#X connect 2 0 0 1;
***************
*** 101,111 ****
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 159 669 ::: SAVE/LOAD :::;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into the specific container. (In
! future I'll also make a XML-fileformat \, which will be easier to edit
! !);
! #N canvas 215 140 716 536 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
--- 179,187 ----
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X text 41 579 In the containers you can save all of the PD build-in
! datatypes: lists \, floats \, and symbol.;
! #N canvas 215 140 716 600 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
***************
*** 117,131 ****
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 368 320 h_list \$0-local;
! #X msg 368 235 save example.dat;
! #X msg 393 284 print;
! #X text 493 236 <- save data as file;
#X obj 140 477 h_set blablu;
! #X msg 140 405 read example.dat;
! #X text 274 405 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
--- 193,214 ----
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 333 321 h_list \$0-local;
! #X msg 358 285 print;
#X obj 140 477 h_set blablu;
! #X msg 140 413 read example.dat;
! #X text 274 413 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
+ #X msg 333 207 saveXML example.xml;
+ #X text 457 238 <- save data as file;
+ #X msg 333 238 save example.dat;
+ #X text 477 208 <- save data as XML file;
+ #X msg 140 378 readXML example.xml;
+ #X text 283 379 <- read the same XML data now into a h_set;
+ #X text 22 529 Please use the XML fileformat if possible \, because
+ it's easier to edit in an external editor and the XML parser is much
+ more stable !;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
***************
*** 136,183 ****
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 10 0 8 0;
! #X connect 13 0 12 0;
! #X connect 16 0 12 0;
! #X restore 42 771 pd save_load_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X restore 545 83 pd General_Concept;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 295 36 help file of;
! #X text 205 825 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)gmx.at>
! \, 2004;
! #X text 40 98 init arg: namespace;
! #X msg 480 293 print;
! #X msg 480 337 clear;
! #X msg 480 681 help;
! #X obj 566 731 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X msg 480 234 getnamespace;
! #X msg 480 375 clearall;
! #X obj 480 780 print BBB;
! #X obj 71 443 print AAA;
! #X text 591 259 <- change namespace;
! #X msg 480 258 namespace grix;
! #X text 527 294 <- print all the data of the;
! #X text 546 309 current namespace;
! #X text 528 337 <- clear all the data of the;
! #X text 549 352 current namespace;
! #X text 548 377 <- clear all the data in all;
! #X text 569 392 same containers (maybe;
! #X text 571 407 you shouldn't use this);
! #X text 585 440 <- save all the data of;
! #X text 582 455 current namespac to disk;
! #X text 579 481 <- read this file to;
! #X text 580 236 <- get current namespace;
! #X text 512 193 general operations:;
! #X msg 297 366 list damm 4345 it;
! #X floatatom 297 272 5 0 0 0 - - -;
! #X symbolatom 297 290 10 0 0 0 - - -;
! #X msg 297 342 hacka 45;
! #X msg 297 319 3 4 krschi;
! #X text 307 241 value:;
#N canvas 205 0 993 742 Container_Explanation 0;
#X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
--- 219,236 ----
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 11 0 10 0;
! #X connect 14 0 10 0;
! #X connect 15 0 8 0;
! #X connect 17 0 8 0;
! #X connect 19 0 10 0;
! #X restore 40 797 pd save_load_example;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into a container. You can also
! load data from other containers. Please use the XML fileformat if possible
! \, because it's easier to edit in an external editor and the XML parser
! is much more stable.;
! #X text 164 671 ::: SAVE/LOAD :::;
! #X restore 536 62 pd General_Concept;
#N canvas 205 0 993 742 Container_Explanation 0;
#X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
***************
*** 247,344 ****
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 527 114 pd Container_Explanation;
! #X text 279 54 ::: h_vector :::;
! #X text 31 143 A vector is a sequence that supports access to all elements
! via index (like an array) and fast insertion and removal of elements
! at the end. The number of elements in a vector may vary dynamically.
;
! #X msg 480 618 resize \$1;
! #X msg 480 652 getsize;
! #X text 593 495 current namespace and;
! #X text 592 509 it at the back (so the;
! #X text 593 524 size will increase);
! #X msg 480 440 save data.dat;
! #X msg 480 481 read data.dat;
! #X msg 480 547 readat data.dat 0;
! #X text 614 547 <- read the file at;
! #X text 635 563 the given index;
! #X text 624 579 (so that the size;
! #X text 625 593 won't increase);
! #X floatatom 488 590 5 0 0 0 - - -;
! #X text 556 619 <- resizes the vector;
! #X obj 480 708 h_vector klax;
! #X floatatom 523 751 5 0 0 0 - - -;
! #X text 545 651 <- get the size (at 2nd;
! #X text 567 665 outlet);
! #X text 567 750 <- size of vector;
! #X obj 71 383 h_vector klax;
! #X floatatom 114 422 5 0 0 0 - - -;
! #X msg 71 290 get \$1;
! #X floatatom 77 269 5 0 0 0 - - -;
! #X floatatom 77 226 5 0 0 0 - - -;
! #X msg 71 247 set \$1;
! #X msg 71 698 insert \$1;
! #X floatatom 78 671 5 0 0 0 - - -;
! #X floatatom 79 721 5 0 0 0 - - -;
! #X msg 70 744 remove \$1;
! #X text 127 246 <- changes the value;
! #X text 148 260 at that index;
! #X text 145 304 at that index;
! #X text 124 290 <- get the value;
! #X text 177 404 <- bang if not found;
! #X msg 70 526 pushback gsdfg 34;
! #X msg 70 572 popback;
! #X obj 70 622 h_vector klax;
! #X floatatom 70 481 5 0 0 0 - - -;
! #X msg 70 503 pushback \$1;
! #X text 166 503 <- inserts the data at the;
! #X text 223 518 back of the vector;
! #X text 230 532 (so the size will;
! #X text 230 545 increase);
! #X text 131 571 <- removes the element from the;
! #X text 154 586 back (so the size will decrease);
! #X msg 178 768 some data;
! #X text 152 671 remove and insert at index:;
! #X text 188 708 If you need this very often you;
! #X text 188 722 should better use a list or a map;
! #X text 187 694 Thats not very fast with a vector!;
! #X text 188 735 (or something else) !;
! #X obj 70 768 h_vector klax;
! #X symbolatom 115 481 10 0 0 0 - - -;
! #X connect 9 0 54 0;
! #X connect 10 0 54 0;
! #X connect 11 0 54 0;
! #X connect 13 0 54 0;
! #X connect 14 0 54 0;
! #X connect 18 0 54 0;
! #X connect 31 0 59 1;
! #X connect 32 0 59 1;
! #X connect 33 0 59 1;
! #X connect 34 0 59 1;
! #X connect 35 0 59 1;
! #X connect 40 0 54 0;
! #X connect 41 0 54 0;
! #X connect 45 0 54 0;
! #X connect 46 0 54 0;
! #X connect 47 0 54 0;
! #X connect 52 0 40 0;
! #X connect 54 0 15 0;
! #X connect 54 1 55 0;
! #X connect 54 2 12 0;
! #X connect 59 0 16 0;
! #X connect 59 1 60 0;
! #X connect 59 2 0 0;
! #X connect 61 0 59 0;
! #X connect 62 0 61 0;
! #X connect 63 0 64 0;
! #X connect 64 0 59 0;
! #X connect 65 0 91 0;
! #X connect 66 0 65 0;
! #X connect 67 0 68 0;
! #X connect 68 0 91 0;
! #X connect 74 0 76 0;
! #X connect 75 0 76 0;
! #X connect 77 0 78 0;
! #X connect 78 0 76 0;
! #X connect 85 0 91 1;
! #X connect 92 0 78 0;
--- 300,444 ----
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 518 90 pd Container_Explanation;
! #N canvas 254 0 927 786 Fileformats 0;
! #X obj 38 27 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 40 29 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 259 56 PDContainer;
! #X text 257 38 different fileformats of;
! #X text 472 116 Please use the XML fileformat if possible \, because
! it's easier to edit in an external editor and the XML parser is much
! more stable!;
! #X text 40 582 s go;
! #X text 40 569 f 2 s wow f 2;
! #X text 40 599 f 23;
! #X text 38 634 (f=float \, s=symbol);
! #X text 37 171 a) single elements: are the containers h_vector \, h_list
! \, h_deque \, h_set \, h_multiset;
! #X text 471 172 b) key-value pairs: are the containers h_map and h_multimap
! ;
! #X text 469 276 2.element: symbol go;
! #X text 476 698 f 2 s wow - f 2;
! #X text 476 712 s go - s not f 34;
! #X text 476 729 f 23 - s op;
! #X text 488 244 key: list 2 wow;
! #X text 470 229 1.element:;
! #X text 488 258 value: float 2;
! #X text 490 291 key: symbol go;
! #X text 490 305 value: list symbol not float 34;
! #X text 39 243 1.element: list 2 wow 2;
! #X text 39 257 2.element: symbol go;
! #X text 38 272 3.element: float 23;
! #X text 37 223 a) example1:;
! #X text 470 212 b) example2:;
! #X text 37 312 a) example1 \, XML:;
! #X text 37 339 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 37 353 <PDContainer type="h_list">;
! #X text 54 366 <element>;
! #X text 70 379 <f> 2 </f>;
! #X text 70 405 <f> 2 </f>;
! #X text 56 418 </element>;
! #X text 70 391 <s> wow </s>;
! #X text 56 431 <element>;
! #X text 57 455 </element>;
! #X text 72 443 <s> go </s>;
! #X text 56 468 <element>;
! #X text 57 492 </element>;
! #X text 72 480 <f> 23 </f>;
! #X text 41 506 </PDContainer>;
! #X text 41 542 a) example1 \, textfile:;
! #X text 39 115 You can save the data of the containers to XML files
! and normal textfiles (see General_Concept).;
! #X text 469 375 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 469 389 <PDContainer type="h_list">;
! #X text 486 402 <element>;
! #X text 519 430 <f> 2 </f>;
! #X text 520 482 <f> 2 </f>;
! #X text 488 506 </element>;
! #X text 519 442 <s> wow </s>;
! #X text 475 634 </PDContainer>;
! #X text 469 348 b) example2 \, XML:;
! #X text 503 415 <key>;
! #X text 504 456 </key>;
! #X text 503 468 <value>;
! #X text 504 494 </value>;
! #X text 487 519 <element>;
! #X text 489 621 </element>;
! #X text 504 532 <key>;
! #X text 505 559 </key>;
! #X text 504 571 <value>;
! #X text 505 609 </value>;
! #X text 520 545 <s> go </s>;
! #X text 521 584 <s> not </s>;
! #X text 521 597 <f> 34 </f>;
! #X text 476 668 b) example2 \, textfile:;
! #X restore 550 116 pd Fileformats;
! #X text 238 841 htttp://grh.mur.at/software/pdcontainer.html;
! #X text 198 825 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)mur.at>
! \, 2004;
! #N canvas 174 18 646 402 read_save_possibilities 0;
! #X obj 44 336 outlet;
! #X msg 44 208 save data.dat;
! #X msg 44 244 read data.dat;
! #X msg 44 288 readat data.dat 0;
! #X text 149 208 <- save all the data of the current namespace as textfile
! ;
! #X text 143 244 <- read this textfile to the current namespace and
! insert it at the back (so the size will increase);
! #X text 177 287 <- read the textfile and insert it at the given index
! (so the size won't increase !);
! #X text 166 94 <- read this XML-file to the current namespace and insert
! it at the back (so the size will increase);
! #X text 169 61 <- save all the data of the current namespace as XML-file
! ;
! #X text 196 139 <- read the XML-file and insert it at the given index
! (so the size won't increase !);
! #X msg 44 61 saveXML data.xml;
! #X msg 44 93 readXML data.xml;
! #X msg 44 139 readatXML data.xml 0;
! #X connect 1 0 0 0;
! #X connect 2 0 0 0;
! #X connect 3 0 0 0;
! #X connect 10 0 0 0;
! #X connect 11 0 0 0;
! #X connect 12 0 0 0;
! #X restore 480 476 pd read_save_possibilities;
! #X text 520 500 different possiblities to read;
! #X text 520 514 and write from and to files;
! #X text 519 529 (XML and textfiles);
! #X connect 5 0 36 0;
! #X connect 6 0 36 0;
! #X connect 7 0 36 0;
! #X connect 9 0 36 0;
! #X connect 10 0 36 0;
! #X connect 14 0 36 0;
! #X connect 24 0 41 1;
! #X connect 25 0 41 1;
! #X connect 26 0 41 1;
! #X connect 27 0 41 1;
! #X connect 28 0 41 1;
! #X connect 32 0 36 0;
! #X connect 33 0 36 0;
! #X connect 34 0 32 0;
! #X connect 36 0 11 0;
! #X connect 36 1 37 0;
! #X connect 36 2 8 0;
! #X connect 41 0 12 0;
! #X connect 41 1 42 0;
! #X connect 41 2 0 0;
! #X connect 43 0 41 0;
! #X connect 44 0 43 0;
! #X connect 45 0 46 0;
! #X connect 46 0 41 0;
! #X connect 47 0 73 0;
! #X connect 48 0 47 0;
! #X connect 49 0 50 0;
! #X connect 50 0 73 0;
! #X connect 56 0 58 0;
! #X connect 57 0 58 0;
! #X connect 59 0 60 0;
! #X connect 60 0 58 0;
! #X connect 67 0 73 1;
! #X connect 74 0 60 0;
! #X connect 82 0 36 0;
Index: help-h_map.pd
===================================================================
RCS file: /cvsroot/pure-data/externals/PDContainer/help/help-h_map.pd,v
retrieving revision 1.2
retrieving revision 1.3
diff -C2 -d -r1.2 -r1.3
*** help-h_map.pd 29 Oct 2004 11:56:12 -0000 1.2
--- help-h_map.pd 5 May 2005 22:59:33 -0000 1.3
***************
*** 1,9 ****
! #N canvas 332 0 818 882 10;
#X msg 82 407 add ge;
#X obj 175 494 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
! #X obj 514 131 cnv 15 204 104 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 516 133 cnv 15 200 100 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
--- 1,79 ----
! #N canvas 0 0 818 882 10;
#X msg 82 407 add ge;
#X obj 175 494 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 295 36 help file of;
! #X text 292 53 ::: h_map :::;
! #X text 40 98 init arg: namespace;
! #X msg 474 379 print;
! #X msg 474 423 clear;
! #X msg 474 643 help;
! #X obj 567 704 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X msg 474 320 getnamespace;
! #X msg 474 461 clearall;
! #X obj 474 681 h_map druschka;
! #X obj 474 757 print BBB;
! #X obj 82 495 print AAA;
! #X text 585 345 <- change namespace;
! #X msg 474 344 namespace grix;
! #X text 521 380 <- print all the data of the;
! #X text 540 395 current namespace;
! #X text 522 423 <- clear all the data of the;
! #X text 543 438 current namespace;
! #X text 542 463 <- clear all the data in all;
! #X text 563 478 same containers (maybe;
! #X text 565 493 you shouldn't use this);
! #X text 574 322 <- get current namespace;
! #X text 473 268 general operations:;
! #X msg 82 381 add bla bal tuff;
! #X msg 82 431 add 4 f 3;
! #X msg 82 356 add \$1;
! #X floatatom 82 318 5 0 0 0 - - -;
! #X symbolatom 129 320 10 0 0 0 - - -;
! #X obj 82 472 h_map druschka;
! #X msg 244 433 list damm 4345 it;
! #X floatatom 244 339 5 0 0 0 - - -;
! #X symbolatom 244 357 10 0 0 0 - - -;
! #X msg 244 409 hacka 45;
! #X msg 244 386 3 4 krschi;
! #X text 37 130 Maps represent a mapping from one type (the key type)
! to another type (the value type). You can associate a value with a
! key \, or find the value associated with a key \, very efficiently.
! Map is a Sorted Associative Container and it is also a Unique Associative
! Container \, meaning that no two elements have the same key. (see Multimap
! for more elements with the same key);
! #X text 110 293 key:;
! #X text 254 308 value:;
! #X text 127 269 add data to the map:;
! #X obj 172 748 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X obj 79 749 print AAA;
! #X floatatom 79 572 5 0 0 0 - - -;
! #X symbolatom 126 574 10 0 0 0 - - -;
! #X obj 79 726 h_map druschka;
! #X text 136 541 get \, remove data:;
! #X msg 79 610 get \$1;
! #X msg 79 635 get bla bal tuff;
! #X msg 79 661 get ge;
! #X msg 79 685 get 4 f 3;
! #X floatatom 222 576 5 0 0 0 - - -;
! #X symbolatom 269 578 10 0 0 0 - - -;
! #X msg 222 614 remove \$1;
! #X msg 222 639 remove bla bal tuff;
! #X msg 222 665 remove ge;
! #X msg 222 689 remove 4 f 3;
! #X text 195 748 <- bang if the key isn't found;
! #X msg 474 609 getsize;
! #X text 539 608 <- get the size (at 2nd;
! #X text 561 622 outlet);
! #X obj 520 730 print size;
! #X obj 504 26 cnv 15 204 120 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 506 28 cnv 15 200 116 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
***************
*** 49,54 ****
#X restore 39 503 pd namespace_example;
#X text 161 554 ::: DATATYPES :::;
- #X text 41 579 In the containers you can save all of the build-in datatypes:
- lists \, floats \, and symbol.;
#X text 38 296 As storage datastructures I implemented the C++ STL
(Standard Template Library) Containers in PD. Currently following datastructures
--- 119,122 ----
***************
*** 79,90 ****
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
- #X text 111 659 ( If you use lists as key you can also make a multidimensional
- matrix ! );
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs with lists \, you don't have to update the
! send-receive pairs all the time \, you can use send-receive "namespaces"
\, ...;
#X connect 1 0 0 0;
#X connect 2 0 0 1;
--- 147,158 ----
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs \, you don't have to update the send-receive
! pairs all the time (like [value]) \, you can use send-receive "namespaces"
\, ...;
+ #X text 111 659 ( If you use lists as key you can also make a multidimensional
+ matrix ... );
#X connect 1 0 0 0;
#X connect 2 0 0 1;
***************
*** 102,112 ****
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 159 669 ::: SAVE/LOAD :::;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into the specific container. (In
! future I'll also make a XML-fileformat \, which will be easier to edit
! !);
! #N canvas 215 140 716 536 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
--- 170,178 ----
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X text 41 579 In the containers you can save all of the PD build-in
! datatypes: lists \, floats \, and symbol.;
! #N canvas 215 140 716 600 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
***************
*** 118,132 ****
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 368 320 h_list \$0-local;
! #X msg 368 235 save example.dat;
! #X msg 393 284 print;
! #X text 493 236 <- save data as file;
#X obj 140 477 h_set blablu;
! #X msg 140 405 read example.dat;
! #X text 274 405 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
--- 184,205 ----
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 333 321 h_list \$0-local;
! #X msg 358 285 print;
#X obj 140 477 h_set blablu;
! #X msg 140 413 read example.dat;
! #X text 274 413 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
+ #X msg 333 207 saveXML example.xml;
+ #X text 457 238 <- save data as file;
+ #X msg 333 238 save example.dat;
+ #X text 477 208 <- save data as XML file;
+ #X msg 140 378 readXML example.xml;
+ #X text 283 379 <- read the same XML data now into a h_set;
+ #X text 22 529 Please use the XML fileformat if possible \, because
+ it's easier to edit in an external editor and the XML parser is much
+ more stable !;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
***************
*** 137,221 ****
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 10 0 8 0;
! #X connect 13 0 12 0;
! #X connect 16 0 12 0;
! #X restore 42 771 pd save_load_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X restore 550 170 pd General_Concept;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 295 36 help file of;
! #X text 200 831 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)gmx.at>
! \, 2004;
! #X text 292 53 ::: h_map :::;
! #X text 40 98 init arg: namespace;
! #X msg 482 405 print;
! #X msg 482 449 clear;
! #X msg 482 669 help;
! #X obj 575 730 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X msg 482 346 getnamespace;
! #X msg 482 487 clearall;
! #X msg 482 552 save map.dat;
! #X msg 482 593 read map.dat;
! #X obj 482 707 h_map druschka;
! #X obj 482 783 print BBB;
! #X obj 82 495 print AAA;
! #X text 593 371 <- change namespace;
! #X msg 482 370 namespace grix;
! #X text 529 406 <- print all the data of the;
! #X text 548 421 current namespace;
! #X text 530 449 <- clear all the data of the;
! #X text 551 464 current namespace;
! #X text 550 489 <- clear all the data in all;
! #X text 571 504 same containers (maybe;
! #X text 573 519 you shouldn't use this);
! #X text 583 553 <- save all the data of;
! #X text 580 568 current namespac to disk;
! #X text 581 593 <- read this file to;
! #X text 602 607 current namespace;
! #X text 582 348 <- get current namespace;
! #X text 481 294 general operations:;
! #X msg 82 381 add bla bal tuff;
! #X msg 82 431 add 4 f 3;
! #X msg 82 356 add \$1;
! #X floatatom 82 318 5 0 0 0 - - -;
! #X symbolatom 129 320 10 0 0 0 - - -;
! #X obj 82 472 h_map druschka;
! #X msg 244 433 list damm 4345 it;
! #X floatatom 244 339 5 0 0 0 - - -;
! #X symbolatom 244 357 10 0 0 0 - - -;
! #X msg 244 409 hacka 45;
! #X msg 244 386 3 4 krschi;
! #X text 37 130 Maps represent a mapping from one type (the key type)
! to another type (the value type). You can associate a value with a
! key \, or find the value associated with a key \, very efficiently.
! Map is a Sorted Associative Container and it is also a Unique Associative
! Container \, meaning that no two elements have the same key. (see Multimap
! for more elements with the same key);
! #X text 110 293 key:;
! #X text 254 308 value:;
! #X text 127 269 add data to the map:;
! #X obj 172 748 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X obj 79 749 print AAA;
! #X floatatom 79 572 5 0 0 0 - - -;
! #X symbolatom 126 574 10 0 0 0 - - -;
! #X obj 79 726 h_map druschka;
! #X text 136 541 get \, remove data:;
! #X msg 79 610 get \$1;
! #X msg 79 635 get bla bal tuff;
! #X msg 79 661 get ge;
! #X msg 79 685 get 4 f 3;
! #X floatatom 222 576 5 0 0 0 - - -;
! #X symbolatom 269 578 10 0 0 0 - - -;
! #X msg 222 614 remove \$1;
! #X msg 222 639 remove bla bal tuff;
! #X msg 222 665 remove ge;
! #X msg 222 689 remove 4 f 3;
! #X text 195 748 <- bang if the key isn't found;
#N canvas 205 0 993 742 Container_Explanation 0;
#X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
--- 210,227 ----
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 11 0 10 0;
! #X connect 14 0 10 0;
! #X connect 15 0 8 0;
! #X connect 17 0 8 0;
! #X connect 19 0 10 0;
! #X restore 40 797 pd save_load_example;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into a container. You can also
! load data from other containers. Please use the XML fileformat if possible
! \, because it's easier to edit in an external editor and the XML parser
! is much more stable.;
! #X text 164 671 ::: SAVE/LOAD :::;
! #X restore 540 64 pd General_Concept;
#N canvas 205 0 993 742 Container_Explanation 0;
#X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
***************
*** 285,330 ****
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 532 201 pd Container_Explanation;
! #X msg 482 635 getsize;
! #X text 547 634 <- get the size (at 2nd;
! #X text 569 648 outlet);
! #X obj 528 756 print size;
! #X connect 0 0 42 0;
! #X connect 11 0 19 0;
! #X connect 12 0 19 0;
! #X connect 13 0 19 0;
! #X connect 15 0 19 0;
! #X connect 16 0 19 0;
! #X connect 17 0 19 0;
! #X connect 18 0 19 0;
! #X connect 19 0 20 0;
! #X connect 19 1 73 0;
! #X connect 19 2 14 0;
! #X connect 23 0 19 0;
! #X connect 37 0 42 0;
! #X connect 38 0 42 0;
! #X connect 39 0 42 0;
! #X connect 40 0 39 0;
! #X connect 41 0 39 0;
! #X connect 42 0 21 0;
! #X connect 42 2 1 0;
! #X connect 43 0 42 1;
! #X connect 44 0 42 1;
! #X connect 45 0 42 1;
! #X connect 46 0 42 1;
! #X connect 47 0 42 1;
! #X connect 54 0 58 0;
! #X connect 55 0 58 0;
! #X connect 56 0 53 0;
! #X connect 56 2 52 0;
! #X connect 58 0 56 0;
! #X connect 59 0 56 0;
! #X connect 60 0 56 0;
! #X connect 61 0 56 0;
! #X connect 62 0 64 0;
! #X connect 63 0 64 0;
! #X connect 64 0 56 0;
! #X connect 65 0 56 0;
! #X connect 66 0 56 0;
! #X connect 67 0 56 0;
! #X connect 70 0 19 0;
--- 291,430 ----
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 522 92 pd Container_Explanation;
! #N canvas 254 0 927 786 Fileformats 0;
! #X obj 38 27 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 40 29 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 259 56 PDContainer;
! #X text 257 38 different fileformats of;
! #X text 472 116 Please use the XML fileformat if possible \, because
! it's easier to edit in an external editor and the XML parser is much
! more stable!;
! #X text 40 582 s go;
! #X text 40 569 f 2 s wow f 2;
! #X text 40 599 f 23;
! #X text 38 634 (f=float \, s=symbol);
! #X text 37 171 a) single elements: are the containers h_vector \, h_list
! \, h_deque \, h_set \, h_multiset;
! #X text 471 172 b) key-value pairs: are the containers h_map and h_multimap
! ;
! #X text 469 276 2.element: symbol go;
! #X text 476 698 f 2 s wow - f 2;
! #X text 476 712 s go - s not f 34;
! #X text 476 729 f 23 - s op;
! #X text 488 244 key: list 2 wow;
! #X text 470 229 1.element:;
! #X text 488 258 value: float 2;
! #X text 490 291 key: symbol go;
! #X text 490 305 value: list symbol not float 34;
! #X text 39 243 1.element: list 2 wow 2;
! #X text 39 257 2.element: symbol go;
! #X text 38 272 3.element: float 23;
! #X text 37 223 a) example1:;
! #X text 470 212 b) example2:;
! #X text 37 312 a) example1 \, XML:;
! #X text 37 339 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 37 353 <PDContainer type="h_list">;
! #X text 54 366 <element>;
! #X text 70 379 <f> 2 </f>;
! #X text 70 405 <f> 2 </f>;
! #X text 56 418 </element>;
! #X text 70 391 <s> wow </s>;
! #X text 56 431 <element>;
! #X text 57 455 </element>;
! #X text 72 443 <s> go </s>;
! #X text 56 468 <element>;
! #X text 57 492 </element>;
! #X text 72 480 <f> 23 </f>;
! #X text 41 506 </PDContainer>;
! #X text 41 542 a) example1 \, textfile:;
! #X text 39 115 You can save the data of the containers to XML files
! and normal textfiles (see General_Concept).;
! #X text 469 375 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 469 389 <PDContainer type="h_list">;
! #X text 486 402 <element>;
! #X text 519 430 <f> 2 </f>;
! #X text 520 482 <f> 2 </f>;
! #X text 488 506 </element>;
! #X text 519 442 <s> wow </s>;
! #X text 475 634 </PDContainer>;
! #X text 469 348 b) example2 \, XML:;
! #X text 503 415 <key>;
! #X text 504 456 </key>;
! #X text 503 468 <value>;
! #X text 504 494 </value>;
! #X text 487 519 <element>;
! #X text 489 621 </element>;
! #X text 504 532 <key>;
! #X text 505 559 </key>;
! #X text 504 571 <value>;
! #X text 505 609 </value>;
! #X text 520 545 <s> go </s>;
! #X text 521 584 <s> not </s>;
! #X text 521 597 <f> 34 </f>;
! #X text 476 668 b) example2 \, textfile:;
! #X restore 554 118 pd Fileformats;
! #N canvas 174 18 646 317 read_save_possibilities 0;
! #X obj 50 258 outlet;
! #X msg 50 158 save data.dat;
! #X msg 50 194 read data.dat;
! #X text 155 158 <- save all the data of the current namespace as textfile
! ;
! #X text 149 194 <- read this textfile to the current namespace and
! insert it at the back (so the size will increase);
! #X text 173 83 <- read this XML-file to the current namespace and insert
! it at the back (so the size will increase);
! #X text 176 50 <- save all the data of the current namespace as XML-file
! ;
! #X msg 51 50 saveXML data.xml;
! #X msg 51 82 readXML data.xml;
! #X connect 1 0 0 0;
! #X connect 2 0 0 0;
! #X connect 7 0 0 0;
! #X connect 8 0 0 0;
! #X restore 474 522 pd read_save_possibilities;
! #X text 512 543 different possiblities to read;
! #X text 512 557 and write from and to files;
! #X text 511 571 (XML and textfiles);
! #X text 248 827 htttp://grh.mur.at/software/pdcontainer.html;
! #X text 208 811 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)mur.at>
! \, 2004;
! #X connect 0 0 32 0;
! #X connect 7 0 13 0;
! #X connect 8 0 13 0;
! #X connect 9 0 13 0;
! #X connect 11 0 13 0;
! #X connect 12 0 13 0;
! #X connect 13 0 14 0;
! #X connect 13 1 62 0;
! #X connect 13 2 10 0;
! #X connect 17 0 13 0;
! #X connect 27 0 32 0;
! #X connect 28 0 32 0;
! #X connect 29 0 32 0;
! #X connect 30 0 29 0;
! #X connect 31 0 29 0;
! #X connect 32 0 15 0;
! #X connect 32 2 1 0;
! #X connect 33 0 32 1;
! #X connect 34 0 32 1;
! #X connect 35 0 32 1;
! #X connect 36 0 32 1;
! #X connect 37 0 32 1;
! #X connect 44 0 48 0;
! #X connect 45 0 48 0;
! #X connect 46 0 43 0;
! #X connect 46 2 42 0;
! #X connect 48 0 46 0;
! #X connect 49 0 46 0;
! #X connect 50 0 46 0;
! #X connect 51 0 46 0;
! #X connect 52 0 54 0;
! #X connect 53 0 54 0;
! #X connect 54 0 46 0;
! #X connect 55 0 46 0;
! #X connect 56 0 46 0;
! #X connect 57 0 46 0;
! #X connect 59 0 13 0;
! #X connect 68 0 13 0;
Index: help-h_set.pd
===================================================================
RCS file: /cvsroot/pure-data/externals/PDContainer/help/help-h_set.pd,v
retrieving revision 1.2
retrieving revision 1.3
diff -C2 -d -r1.2 -r1.3
*** help-h_set.pd 29 Oct 2004 11:56:13 -0000 1.2
--- help-h_set.pd 5 May 2005 22:59:34 -0000 1.3
***************
*** 1,7 ****
! #N canvas 219 0 865 892 10;
#X msg 154 388 add ge;
! #X obj 514 131 cnv 15 204 104 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 516 133 cnv 15 200 100 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
--- 1,65 ----
! #N canvas 0 0 800 865 10;
#X msg 154 388 add ge;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 295 36 help file of;
! #X text 37 100 init arg: namespace;
! #X msg 477 380 print;
! #X msg 477 424 clear;
! #X msg 477 644 help;
! #X msg 477 321 getnamespace;
! #X msg 477 462 clearall;
! #X text 588 346 <- change namespace;
! #X msg 477 345 namespace grix;
! #X text 524 381 <- print all the data of the;
! #X text 543 396 current namespace;
! #X text 525 424 <- clear all the data of the;
! #X text 546 439 current namespace;
! #X text 545 464 <- clear all the data in all;
! #X text 566 479 same containers (maybe;
! #X text 568 494 you shouldn't use this);
! #X text 577 323 <- get current namespace;
! #X text 476 269 general operations:;
! #X msg 154 362 add bla bal tuff;
! #X msg 154 412 add 4 f 3;
! #X msg 154 337 add \$1;
! #X floatatom 154 299 5 0 0 0 - - -;
! #X symbolatom 201 301 10 0 0 0 - - -;
! #X floatatom 84 578 5 0 0 0 - - -;
! #X symbolatom 131 580 10 0 0 0 - - -;
! #X text 139 544 get \, remove data:;
! #X msg 84 616 get \$1;
! #X msg 84 641 get bla bal tuff;
! #X msg 84 667 get ge;
! #X msg 84 691 get 4 f 3;
! #X floatatom 227 582 5 0 0 0 - - -;
! #X symbolatom 274 584 10 0 0 0 - - -;
! #X msg 227 620 remove \$1;
! #X msg 227 645 remove bla bal tuff;
! #X msg 227 671 remove ge;
! #X msg 227 695 remove 4 f 3;
! #X floatatom 84 757 5 0 0 0 - - -;
! #X floatatom 477 698 5 0 0 0 - - -;
! #X text 291 51 ::: h_set :::;
! #X text 37 129 Sets allow you to add and delete elements. Afterwards
! you can look if an element is set. Set is a Sorted Associative Container
! and a Unique Associative Container \, meaning that no two elements
! are the same. (see Multiset to have several copies of the same element)
! ;
! #X text 140 268 add data to the set:;
! #X obj 154 453 h_set krx;
! #X floatatom 154 477 5 0 0 0 - - -;
! #X obj 84 732 h_set krx;
! #X text 131 757 <- 1 if the data is set (otherwise 0);
! #X obj 477 675 h_set krx;
! #X obj 535 698 print size;
! #X msg 477 609 getsize;
! #X text 542 608 <- get the size (at 2nd;
! #X text 564 622 outlet);
! #X obj 500 24 cnv 15 204 120 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 502 26 cnv 15 200 116 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
***************
*** 47,52 ****
#X restore 39 503 pd namespace_example;
#X text 161 554 ::: DATATYPES :::;
- #X text 41 579 In the containers you can save all of the build-in datatypes:
- lists \, floats \, and symbol.;
#X text 38 296 As storage datastructures I implemented the C++ STL
(Standard Template Library) Containers in PD. Currently following datastructures
--- 105,108 ----
***************
*** 77,88 ****
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
- #X text 111 659 ( If you use lists as key you can also make a multidimensional
- matrix ! );
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs with lists \, you don't have to update the
! send-receive pairs all the time \, you can use send-receive "namespaces"
\, ...;
#X connect 1 0 0 0;
#X connect 2 0 0 1;
--- 133,144 ----
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs \, you don't have to update the send-receive
! pairs all the time (like [value]) \, you can use send-receive "namespaces"
\, ...;
+ #X text 111 659 ( If you use lists as key you can also make a multidimensional
+ matrix ... );
#X connect 1 0 0 0;
#X connect 2 0 0 1;
***************
*** 100,110 ****
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 159 669 ::: SAVE/LOAD :::;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into the specific container. (In
! future I'll also make a XML-fileformat \, which will be easier to edit
! !);
! #N canvas 215 140 716 536 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
--- 156,164 ----
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X text 41 579 In the containers you can save all of the PD build-in
! datatypes: lists \, floats \, and symbol.;
! #N canvas 215 140 716 600 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
***************
*** 116,130 ****
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 368 320 h_list \$0-local;
! #X msg 368 235 save example.dat;
! #X msg 393 284 print;
! #X text 493 236 <- save data as file;
#X obj 140 477 h_set blablu;
! #X msg 140 405 read example.dat;
! #X text 274 405 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
--- 170,191 ----
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 333 321 h_list \$0-local;
! #X msg 358 285 print;
#X obj 140 477 h_set blablu;
! #X msg 140 413 read example.dat;
! #X text 274 413 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
+ #X msg 333 207 saveXML example.xml;
+ #X text 457 238 <- save data as file;
+ #X msg 333 238 save example.dat;
+ #X text 477 208 <- save data as XML file;
+ #X msg 140 378 readXML example.xml;
+ #X text 283 379 <- read the same XML data now into a h_set;
+ #X text 22 529 Please use the XML fileformat if possible \, because
+ it's easier to edit in an external editor and the XML parser is much
+ more stable !;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
***************
*** 135,205 ****
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 10 0 8 0;
! #X connect 13 0 12 0;
! #X connect 16 0 12 0;
! #X restore 42 771 pd save_load_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X restore 550 170 pd General_Concept;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 295 36 help file of;
! #X text 228 840 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)gmx.at>
! \, 2004;
! #X text 37 100 init arg: namespace;
! #X msg 482 417 print;
! #X msg 482 461 clear;
! #X msg 482 681 help;
! #X msg 482 358 getnamespace;
! #X msg 482 499 clearall;
! #X text 593 383 <- change namespace;
! #X msg 482 382 namespace grix;
! #X text 529 418 <- print all the data of the;
! #X text 548 433 current namespace;
! #X text 530 461 <- clear all the data of the;
! #X text 551 476 current namespace;
! #X text 550 501 <- clear all the data in all;
! #X text 571 516 same containers (maybe;
! #X text 573 531 you shouldn't use this);
! #X text 583 565 <- save all the data of;
! #X text 580 580 current namespac to disk;
! #X text 581 605 <- read this file to;
! #X text 602 619 current namespace;
! #X text 582 360 <- get current namespace;
! #X text 481 306 general operations:;
! #X msg 154 362 add bla bal tuff;
! #X msg 154 412 add 4 f 3;
! #X msg 154 337 add \$1;
! #X floatatom 154 299 5 0 0 0 - - -;
! #X symbolatom 201 301 10 0 0 0 - - -;
! #X floatatom 84 578 5 0 0 0 - - -;
! #X symbolatom 131 580 10 0 0 0 - - -;
! #X text 139 544 get \, remove data:;
! #X msg 84 616 get \$1;
! #X msg 84 641 get bla bal tuff;
! #X msg 84 667 get ge;
! #X msg 84 691 get 4 f 3;
! #X floatatom 227 582 5 0 0 0 - - -;
! #X symbolatom 274 584 10 0 0 0 - - -;
! #X msg 227 620 remove \$1;
! #X msg 227 645 remove bla bal tuff;
! #X msg 227 671 remove ge;
! #X msg 227 695 remove 4 f 3;
! #X floatatom 84 757 5 0 0 0 - - -;
! #X floatatom 482 735 5 0 0 0 - - -;
! #X text 291 51 ::: h_set :::;
! #X text 37 129 Sets allow you to add and delete elements. Afterwards
! you can look if an element is set. Set is a Sorted Associative Container
! and a Unique Associative Container \, meaning that no two elements
! are the same. (see Multiset to have several copies of the same element)
! ;
! #X text 140 268 add data to the set:;
! #X obj 154 453 h_set krx;
! #X floatatom 154 477 5 0 0 0 - - -;
! #X obj 84 732 h_set krx;
! #X text 131 757 <- 1 if the data is set (otherwise 0);
! #X obj 482 712 h_set krx;
#N canvas 205 0 993 742 Container_Explanation 0;
#X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
--- 196,213 ----
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 11 0 10 0;
! #X connect 14 0 10 0;
! #X connect 15 0 8 0;
! #X connect 17 0 8 0;
! #X connect 19 0 10 0;
! #X restore 40 797 pd save_load_example;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into a container. You can also
! load data from other containers. Please use the XML fileformat if possible
! \, because it's easier to edit in an external editor and the XML parser
! is much more stable.;
! #X text 164 671 ::: SAVE/LOAD :::;
! #X restore 536 62 pd General_Concept;
#N canvas 205 0 993 742 Container_Explanation 0;
#X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
***************
*** 269,308 ****
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 532 201 pd Container_Explanation;
! #X msg 482 564 save set.dat;
! #X msg 482 605 read set.dat;
! #X obj 540 735 print size;
! #X msg 482 646 getsize;
! #X text 547 645 <- get the size (at 2nd;
! #X text 569 659 outlet);
! #X connect 0 0 52 0;
! #X connect 9 0 56 0;
! #X connect 10 0 56 0;
! #X connect 11 0 56 0;
! #X connect 12 0 56 0;
! #X connect 13 0 56 0;
! #X connect 15 0 56 0;
! #X connect 29 0 52 0;
! #X connect 30 0 52 0;
! #X connect 31 0 52 0;
! #X connect 32 0 31 0;
! #X connect 33 0 31 0;
! #X connect 34 0 37 0;
! #X connect 35 0 37 0;
! #X connect 37 0 54 0;
! #X connect 38 0 54 0;
! #X connect 39 0 54 0;
! #X connect 40 0 54 0;
! #X connect 41 0 43 0;
! #X connect 42 0 43 0;
! #X connect 43 0 54 0;
! #X connect 44 0 54 0;
! #X connect 45 0 54 0;
! #X connect 46 0 54 0;
! #X connect 52 0 53 0;
! #X connect 54 0 47 0;
! #X connect 56 0 48 0;
! #X connect 56 1 60 0;
! #X connect 58 0 56 0;
! #X connect 59 0 56 0;
! #X connect 61 0 11 0;
--- 277,408 ----
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 518 90 pd Container_Explanation;
! #N canvas 254 0 927 786 Fileformats 0;
! #X obj 38 27 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 40 29 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 259 56 PDContainer;
! #X text 257 38 different fileformats of;
! #X text 472 116 Please use the XML fileformat if possible \, because
! it's easier to edit in an external editor and the XML parser is much
! more stable!;
! #X text 40 582 s go;
! #X text 40 569 f 2 s wow f 2;
! #X text 40 599 f 23;
! #X text 38 634 (f=float \, s=symbol);
! #X text 37 171 a) single elements: are the containers h_vector \, h_list
! \, h_deque \, h_set \, h_multiset;
! #X text 471 172 b) key-value pairs: are the containers h_map and h_multimap
! ;
! #X text 469 276 2.element: symbol go;
! #X text 476 698 f 2 s wow - f 2;
! #X text 476 712 s go - s not f 34;
! #X text 476 729 f 23 - s op;
! #X text 488 244 key: list 2 wow;
! #X text 470 229 1.element:;
! #X text 488 258 value: float 2;
! #X text 490 291 key: symbol go;
! #X text 490 305 value: list symbol not float 34;
! #X text 39 243 1.element: list 2 wow 2;
! #X text 39 257 2.element: symbol go;
! #X text 38 272 3.element: float 23;
! #X text 37 223 a) example1:;
! #X text 470 212 b) example2:;
! #X text 37 312 a) example1 \, XML:;
! #X text 37 339 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 37 353 <PDContainer type="h_list">;
! #X text 54 366 <element>;
! #X text 70 379 <f> 2 </f>;
! #X text 70 405 <f> 2 </f>;
! #X text 56 418 </element>;
! #X text 70 391 <s> wow </s>;
! #X text 56 431 <element>;
! #X text 57 455 </element>;
! #X text 72 443 <s> go </s>;
! #X text 56 468 <element>;
! #X text 57 492 </element>;
! #X text 72 480 <f> 23 </f>;
! #X text 41 506 </PDContainer>;
! #X text 41 542 a) example1 \, textfile:;
! #X text 39 115 You can save the data of the containers to XML files
! and normal textfiles (see General_Concept).;
! #X text 469 375 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 469 389 <PDContainer type="h_list">;
! #X text 486 402 <element>;
! #X text 519 430 <f> 2 </f>;
! #X text 520 482 <f> 2 </f>;
! #X text 488 506 </element>;
! #X text 519 442 <s> wow </s>;
! #X text 475 634 </PDContainer>;
! #X text 469 348 b) example2 \, XML:;
! #X text 503 415 <key>;
! #X text 504 456 </key>;
! #X text 503 468 <value>;
! #X text 504 494 </value>;
! #X text 487 519 <element>;
! #X text 489 621 </element>;
! #X text 504 532 <key>;
! #X text 505 559 </key>;
! #X text 504 571 <value>;
! #X text 505 609 </value>;
! #X text 520 545 <s> go </s>;
! #X text 521 584 <s> not </s>;
! #X text 521 597 <f> 34 </f>;
! #X text 476 668 b) example2 \, textfile:;
! #X restore 550 116 pd Fileformats;
! #N canvas 174 18 646 317 read_save_possibilities 0;
! #X obj 50 258 outlet;
! #X msg 50 158 save data.dat;
! #X msg 50 194 read data.dat;
! #X text 155 158 <- save all the data of the current namespace as textfile
! ;
! #X text 149 194 <- read this textfile to the current namespace and
! insert it at the back (so the size will increase);
! #X text 173 83 <- read this XML-file to the current namespace and insert
! it at the back (so the size will increase);
! #X text 176 50 <- save all the data of the current namespace as XML-file
! ;
! #X msg 51 50 saveXML data.xml;
! #X msg 51 82 readXML data.xml;
! #X connect 1 0 0 0;
! #X connect 2 0 0 0;
! #X connect 7 0 0 0;
! #X connect 8 0 0 0;
! #X restore 477 525 pd read_save_possibilities;
! #X text 515 546 different possiblities to read;
! #X text 515 560 and write from and to files;
! #X text 514 574 (XML and textfiles);
! #X text 283 824 htttp://grh.mur.at/software/pdcontainer.html;
! #X text 243 808 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)mur.at>
! \, 2004;
! #X connect 0 0 44 0;
! #X connect 5 0 48 0;
! #X connect 6 0 48 0;
! #X connect 7 0 48 0;
! #X connect 8 0 48 0;
! #X connect 9 0 48 0;
! #X connect 11 0 48 0;
! #X connect 21 0 44 0;
! #X connect 22 0 44 0;
! #X connect 23 0 44 0;
! #X connect 24 0 23 0;
! #X connect 25 0 23 0;
! #X connect 26 0 29 0;
! #X connect 27 0 29 0;
! #X connect 29 0 46 0;
! #X connect 30 0 46 0;
! #X connect 31 0 46 0;
! #X connect 32 0 46 0;
! #X connect 33 0 35 0;
! #X connect 34 0 35 0;
! #X connect 35 0 46 0;
! #X connect 36 0 46 0;
! #X connect 37 0 46 0;
! #X connect 38 0 46 0;
! #X connect 44 0 45 0;
! #X connect 46 0 39 0;
! #X connect 48 0 40 0;
! #X connect 48 1 49 0;
! #X connect 50 0 7 0;
! #X connect 58 0 48 0;
Index: help-h_multimap.pd
===================================================================
RCS file: /cvsroot/pure-data/externals/PDContainer/help/help-h_multimap.pd,v
retrieving revision 1.2
retrieving revision 1.3
diff -C2 -d -r1.2 -r1.3
*** help-h_multimap.pd 29 Oct 2004 11:56:13 -0000 1.2
--- help-h_multimap.pd 5 May 2005 22:59:33 -0000 1.3
***************
*** 1,7 ****
! #N canvas 0 0 868 918 10;
#X msg 82 407 add ge;
! #X obj 514 131 cnv 15 204 104 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 516 133 cnv 15 200 100 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
--- 1,73 ----
! #N canvas 556 0 813 872 10;
#X msg 82 407 add ge;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 295 36 help file of;
! #X text 40 98 init arg: namespace;
! #X msg 479 373 print;
! #X msg 479 417 clear;
! #X msg 479 655 help;
! #X msg 479 314 getnamespace;
! #X msg 479 455 clearall;
! #X obj 479 708 print BBB;
! #X obj 82 495 print AAA;
! #X text 590 339 <- change namespace;
! #X msg 479 338 namespace grix;
! #X text 526 374 <- print all the data of the;
! #X text 545 389 current namespace;
! #X text 527 417 <- clear all the data of the;
! #X text 548 432 current namespace;
! #X text 547 457 <- clear all the data in all;
! #X text 568 472 same containers (maybe;
! #X text 570 487 you shouldn't use this);
! #X text 579 316 <- get current namespace;
! #X text 478 262 general operations:;
! #X msg 82 381 add bla bal tuff;
! #X msg 82 431 add 4 f 3;
! #X msg 82 356 add \$1;
! #X floatatom 82 318 5 0 0 0 - - -;
! #X symbolatom 129 320 10 0 0 0 - - -;
! #X msg 232 429 list damm 4345 it;
! #X floatatom 232 335 5 0 0 0 - - -;
! #X symbolatom 232 353 10 0 0 0 - - -;
! #X msg 232 405 hacka 45;
! #X msg 232 382 3 4 krschi;
! #X text 110 293 key:;
! #X text 242 304 value:;
! #X obj 79 749 print AAA;
! #X floatatom 79 572 5 0 0 0 - - -;
! #X symbolatom 126 574 10 0 0 0 - - -;
! #X text 136 541 get \, remove data:;
! #X msg 79 610 get \$1;
! #X msg 79 635 get bla bal tuff;
! #X msg 79 661 get ge;
! #X msg 79 685 get 4 f 3;
! #X floatatom 222 576 5 0 0 0 - - -;
! #X symbolatom 269 578 10 0 0 0 - - -;
! #X msg 222 614 remove \$1;
! #X msg 222 639 remove bla bal tuff;
! #X msg 222 665 remove ge;
! #X msg 222 689 remove 4 f 3;
! #X text 40 131 Multimaps are just like maps except that a key can be
! associated with several values. Multimap is a Sorted Associative Container
! and also a Multiple Associative Container \, meaning that there is
! no limit on the number of elements with the same key. (see also Map)
! ;
! #X text 275 53 ::: h_multimap :::;
! #X obj 82 472 h_multimap dampta;
! #X obj 79 726 h_multimap dampta;
! #X obj 479 686 h_multimap dampta;
! #X floatatom 136 782 5 0 0 0 - - -;
! #X text 111 263 add data to the multimap:;
! #X text 180 783 <- nr of values at the specific key;
! #X msg 479 600 getsize;
! #X text 566 613 outlet);
! #X text 544 599 <- get the size (at 3rd;
! #X obj 593 709 print size;
! #X obj 500 24 cnv 15 204 120 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 502 26 cnv 15 200 116 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
***************
*** 47,52 ****
#X restore 39 503 pd namespace_example;
#X text 161 554 ::: DATATYPES :::;
- #X text 41 579 In the containers you can save all of the build-in datatypes:
- lists \, floats \, and symbol.;
#X text 38 296 As storage datastructures I implemented the C++ STL
(Standard Template Library) Containers in PD. Currently following datastructures
--- 113,116 ----
***************
*** 77,88 ****
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
- #X text 111 659 ( If you use lists as key you can also make a multidimensional
- matrix ! );
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs with lists \, you don't have to update the
! send-receive pairs all the time \, you can use send-receive "namespaces"
\, ...;
#X connect 1 0 0 0;
#X connect 2 0 0 1;
--- 141,152 ----
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs \, you don't have to update the send-receive
! pairs all the time (like [value]) \, you can use send-receive "namespaces"
\, ...;
+ #X text 111 659 ( If you use lists as key you can also make a multidimensional
+ matrix ... );
#X connect 1 0 0 0;
#X connect 2 0 0 1;
***************
*** 100,110 ****
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 159 669 ::: SAVE/LOAD :::;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into the specific container. (In
! future I'll also make a XML-fileformat \, which will be easier to edit
! !);
! #N canvas 215 140 716 536 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
--- 164,172 ----
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X text 41 579 In the containers you can save all of the PD build-in
! datatypes: lists \, floats \, and symbol.;
! #N canvas 215 140 716 600 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
***************
*** 116,130 ****
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 368 320 h_list \$0-local;
! #X msg 368 235 save example.dat;
! #X msg 393 284 print;
! #X text 493 236 <- save data as file;
#X obj 140 477 h_set blablu;
! #X msg 140 405 read example.dat;
! #X text 274 405 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
--- 178,199 ----
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 333 321 h_list \$0-local;
! #X msg 358 285 print;
#X obj 140 477 h_set blablu;
! #X msg 140 413 read example.dat;
! #X text 274 413 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
+ #X msg 333 207 saveXML example.xml;
+ #X text 457 238 <- save data as file;
+ #X msg 333 238 save example.dat;
+ #X text 477 208 <- save data as XML file;
+ #X msg 140 378 readXML example.xml;
+ #X text 283 379 <- read the same XML data now into a h_set;
+ #X text 22 529 Please use the XML fileformat if possible \, because
+ it's easier to edit in an external editor and the XML parser is much
+ more stable !;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
***************
*** 135,215 ****
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 10 0 8 0;
! #X connect 13 0 12 0;
! #X connect 16 0 12 0;
! #X restore 42 771 pd save_load_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X restore 550 170 pd General_Concept;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 295 36 help file of;
! #X text 203 848 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)gmx.at>
! \, 2004;
! #X text 40 98 init arg: namespace;
! #X msg 481 408 print;
! #X msg 481 452 clear;
! #X msg 481 690 help;
! #X msg 481 349 getnamespace;
! #X msg 481 490 clearall;
! #X msg 481 555 save map.dat;
! #X msg 481 596 read map.dat;
! #X obj 481 743 print BBB;
! #X obj 82 495 print AAA;
! #X text 592 374 <- change namespace;
! #X msg 481 373 namespace grix;
! #X text 528 409 <- print all the data of the;
! #X text 547 424 current namespace;
! #X text 529 452 <- clear all the data of the;
! #X text 550 467 current namespace;
! #X text 549 492 <- clear all the data in all;
! #X text 570 507 same containers (maybe;
! #X text 572 522 you shouldn't use this);
! #X text 582 556 <- save all the data of;
! #X text 579 571 current namespac to disk;
! #X text 580 596 <- read this file to;
! #X text 601 610 current namespace;
! #X text 581 351 <- get current namespace;
! #X text 480 297 general operations:;
! #X msg 82 381 add bla bal tuff;
! #X msg 82 431 add 4 f 3;
! #X msg 82 356 add \$1;
! #X floatatom 82 318 5 0 0 0 - - -;
! #X symbolatom 129 320 10 0 0 0 - - -;
! #X msg 232 429 list damm 4345 it;
! #X floatatom 232 335 5 0 0 0 - - -;
! #X symbolatom 232 353 10 0 0 0 - - -;
! #X msg 232 405 hacka 45;
! #X msg 232 382 3 4 krschi;
! #X text 110 293 key:;
! #X text 242 304 value:;
! #X obj 79 749 print AAA;
! #X floatatom 79 572 5 0 0 0 - - -;
! #X symbolatom 126 574 10 0 0 0 - - -;
! #X text 136 541 get \, remove data:;
! #X msg 79 610 get \$1;
! #X msg 79 635 get bla bal tuff;
! #X msg 79 661 get ge;
! #X msg 79 685 get 4 f 3;
! #X floatatom 222 576 5 0 0 0 - - -;
! #X symbolatom 269 578 10 0 0 0 - - -;
! #X msg 222 614 remove \$1;
! #X msg 222 639 remove bla bal tuff;
! #X msg 222 665 remove ge;
! #X msg 222 689 remove 4 f 3;
! #X text 40 131 Multimaps are just like maps except that a key can be
! associated with several values. Multimap is a Sorted Associative Container
! and also a Multiple Associative Container \, meaning that there is
! no limit on the number of elements with the same key. (see also Map)
! ;
! #X text 275 53 ::: h_multimap :::;
! #X obj 82 472 h_multimap dampta;
! #X obj 79 726 h_multimap dampta;
! #X obj 481 721 h_multimap dampta;
! #X floatatom 136 782 5 0 0 0 - - -;
! #X text 111 263 add data to the multimap:;
! #X text 180 783 <- nr of values at the specific key;
#N canvas 205 0 993 742 Container_Explanation 0;
#X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
--- 204,221 ----
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 11 0 10 0;
! #X connect 14 0 10 0;
! #X connect 15 0 8 0;
! #X connect 17 0 8 0;
! #X connect 19 0 10 0;
! #X restore 40 797 pd save_load_example;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into a container. You can also
! load data from other containers. Please use the XML fileformat if possible
! \, because it's easier to edit in an external editor and the XML parser
! is much more stable.;
! #X text 164 671 ::: SAVE/LOAD :::;
! #X restore 536 62 pd General_Concept;
#N canvas 205 0 993 742 Container_Explanation 0;
#X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
***************
*** 279,322 ****
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 532 201 pd Container_Explanation;
! #X msg 481 635 getsize;
! #X text 568 648 outlet);
! #X text 546 634 <- get the size (at 3rd;
! #X obj 595 744 print size;
! #X connect 0 0 61 0;
! #X connect 9 0 63 0;
! #X connect 10 0 63 0;
! #X connect 11 0 63 0;
! #X connect 12 0 63 0;
! #X connect 13 0 63 0;
! #X connect 14 0 63 0;
! #X connect 15 0 63 0;
! #X connect 19 0 63 0;
! #X connect 33 0 61 0;
! #X connect 34 0 61 0;
! #X connect 35 0 61 0;
! #X connect 36 0 35 0;
! #X connect 37 0 35 0;
! #X connect 38 0 61 1;
! #X connect 39 0 61 1;
! #X connect 40 0 61 1;
! #X connect 41 0 61 1;
! #X connect 42 0 61 1;
! #X connect 46 0 49 0;
! #X connect 47 0 49 0;
! #X connect 49 0 62 0;
! #X connect 50 0 62 0;
! #X connect 51 0 62 0;
! #X connect 52 0 62 0;
! #X connect 53 0 55 0;
! #X connect 54 0 55 0;
! #X connect 55 0 62 0;
! #X connect 56 0 62 0;
! #X connect 57 0 62 0;
! #X connect 58 0 62 0;
! #X connect 61 0 17 0;
! #X connect 62 0 45 0;
! #X connect 62 1 64 0;
! #X connect 63 0 16 0;
! #X connect 63 2 71 0;
! #X connect 68 0 63 0;
--- 285,422 ----
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 518 90 pd Container_Explanation;
! #N canvas 254 0 927 786 Fileformats 0;
! #X obj 38 27 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 40 29 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 259 56 PDContainer;
! #X text 257 38 different fileformats of;
! #X text 472 116 Please use the XML fileformat if possible \, because
! it's easier to edit in an external editor and the XML parser is much
! more stable!;
! #X text 40 582 s go;
! #X text 40 569 f 2 s wow f 2;
! #X text 40 599 f 23;
! #X text 38 634 (f=float \, s=symbol);
! #X text 37 171 a) single elements: are the containers h_vector \, h_list
! \, h_deque \, h_set \, h_multiset;
! #X text 471 172 b) key-value pairs: are the containers h_map and h_multimap
! ;
! #X text 469 276 2.element: symbol go;
! #X text 476 698 f 2 s wow - f 2;
! #X text 476 712 s go - s not f 34;
! #X text 476 729 f 23 - s op;
! #X text 488 244 key: list 2 wow;
! #X text 470 229 1.element:;
! #X text 488 258 value: float 2;
! #X text 490 291 key: symbol go;
! #X text 490 305 value: list symbol not float 34;
! #X text 39 243 1.element: list 2 wow 2;
! #X text 39 257 2.element: symbol go;
! #X text 38 272 3.element: float 23;
! #X text 37 223 a) example1:;
! #X text 470 212 b) example2:;
! #X text 37 312 a) example1 \, XML:;
! #X text 37 339 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 37 353 <PDContainer type="h_list">;
! #X text 54 366 <element>;
! #X text 70 379 <f> 2 </f>;
! #X text 70 405 <f> 2 </f>;
! #X text 56 418 </element>;
! #X text 70 391 <s> wow </s>;
! #X text 56 431 <element>;
! #X text 57 455 </element>;
! #X text 72 443 <s> go </s>;
! #X text 56 468 <element>;
! #X text 57 492 </element>;
! #X text 72 480 <f> 23 </f>;
! #X text 41 506 </PDContainer>;
! #X text 41 542 a) example1 \, textfile:;
! #X text 39 115 You can save the data of the containers to XML files
! and normal textfiles (see General_Concept).;
! #X text 469 375 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 469 389 <PDContainer type="h_list">;
! #X text 486 402 <element>;
! #X text 519 430 <f> 2 </f>;
! #X text 520 482 <f> 2 </f>;
! #X text 488 506 </element>;
! #X text 519 442 <s> wow </s>;
! #X text 475 634 </PDContainer>;
! #X text 469 348 b) example2 \, XML:;
! #X text 503 415 <key>;
! #X text 504 456 </key>;
! #X text 503 468 <value>;
! #X text 504 494 </value>;
! #X text 487 519 <element>;
! #X text 489 621 </element>;
! #X text 504 532 <key>;
! #X text 505 559 </key>;
! #X text 504 571 <value>;
! #X text 505 609 </value>;
! #X text 520 545 <s> go </s>;
! #X text 521 584 <s> not </s>;
! #X text 521 597 <f> 34 </f>;
! #X text 476 668 b) example2 \, textfile:;
! #X restore 550 116 pd Fileformats;
! #N canvas 174 18 646 317 read_save_possibilities 0;
! #X obj 50 258 outlet;
! #X msg 50 158 save data.dat;
! #X msg 50 194 read data.dat;
! #X text 155 158 <- save all the data of the current namespace as textfile
! ;
! #X text 149 194 <- read this textfile to the current namespace and
! insert it at the back (so the size will increase);
! #X text 173 83 <- read this XML-file to the current namespace and insert
! it at the back (so the size will increase);
! #X text 176 50 <- save all the data of the current namespace as XML-file
! ;
! #X msg 51 50 saveXML data.xml;
! #X msg 51 82 readXML data.xml;
! #X connect 1 0 0 0;
! #X connect 2 0 0 0;
! #X connect 7 0 0 0;
! #X connect 8 0 0 0;
! #X restore 479 515 pd read_save_possibilities;
! #X text 517 536 different possiblities to read;
! #X text 517 550 and write from and to files;
! #X text 516 564 (XML and textfiles);
! #X text 260 835 htttp://grh.mur.at/software/pdcontainer.html;
! #X text 220 819 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)mur.at>
! \, 2004;
! #X connect 0 0 51 0;
! #X connect 5 0 53 0;
! #X connect 6 0 53 0;
! #X connect 7 0 53 0;
! #X connect 8 0 53 0;
! #X connect 9 0 53 0;
! #X connect 13 0 53 0;
! #X connect 23 0 51 0;
! #X connect 24 0 51 0;
! #X connect 25 0 51 0;
! #X connect 26 0 25 0;
! #X connect 27 0 25 0;
! #X connect 28 0 51 1;
! #X connect 29 0 51 1;
! #X connect 30 0 51 1;
! #X connect 31 0 51 1;
! #X connect 32 0 51 1;
! #X connect 36 0 39 0;
! #X connect 37 0 39 0;
! #X connect 39 0 52 0;
! #X connect 40 0 52 0;
! #X connect 41 0 52 0;
! #X connect 42 0 52 0;
! #X connect 43 0 45 0;
! #X connect 44 0 45 0;
! #X connect 45 0 52 0;
! #X connect 46 0 52 0;
! #X connect 47 0 52 0;
! #X connect 48 0 52 0;
! #X connect 51 0 11 0;
! #X connect 52 0 35 0;
! #X connect 52 1 54 0;
! #X connect 53 0 10 0;
! #X connect 53 2 60 0;
! #X connect 57 0 53 0;
! #X connect 66 0 53 0;
Index: help-h_list.pd
===================================================================
RCS file: /cvsroot/pure-data/externals/PDContainer/help/help-h_list.pd,v
retrieving revision 1.4
retrieving revision 1.5
diff -C2 -d -r1.4 -r1.5
*** help-h_list.pd 18 Mar 2005 10:15:01 -0000 1.4
--- help-h_list.pd 5 May 2005 22:59:33 -0000 1.5
***************
*** 1,6 ****
! #N canvas 81 0 834 894 10;
! #X obj 525 58 cnv 15 204 104 empty empty empty 20 12 0 14 -66577 -66577
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! #X obj 527 60 cnv 15 200 100 empty empty ReadMe: 65 15 0 14 -262131
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--- 1,191 ----
! #N canvas 535 40 834 864 10;
! #X obj 36 29 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 38 31 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 298 41 help file of;
! #X text 39 103 init arg: namespace;
! #X msg 483 298 print;
! #X msg 483 342 clear;
! #X msg 483 653 help;
! #X obj 604 712 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X msg 483 239 getnamespace;
! #X msg 483 380 clearall;
! #X obj 483 769 print BBB;
! #X text 594 264 <- change namespace;
! #X msg 483 263 namespace grix;
! #X text 530 299 <- print all the data of the;
! #X text 549 314 current namespace;
! #X text 531 342 <- clear all the data of the;
! #X text 552 357 current namespace;
! #X text 551 382 <- clear all the data in all;
! #X text 572 397 same containers (maybe;
! #X text 574 412 you shouldn't use this);
! #X text 583 241 <- get current namespace;
! #X text 514 198 general operations:;
! #X msg 483 561 getsize;
! #X floatatom 523 749 5 0 0 0 - - -;
! #X text 570 574 outlet);
! #X text 290 58 ::: h_list :::;
! #X text 40 133 Fast insertion and removal anywhere \, all the other
! elements move up. But a list provides only sequential access (not via
! index !). A list is a doubly linked list.;
! #X obj 483 691 h_list simonatbase;
! #X text 604 730 <- size of the list;
! #X obj 192 721 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X obj 71 700 h_list simonatbase;
! #X obj 71 674 r \$0-list;
! #X obj 71 739 print AAA;
! #N canvas 523 246 495 416 pusch_pop_back_front 0;
! #X msg 66 229 popback;
! #X floatatom 76 120 5 0 0 0 - - -;
! #X msg 66 140 pushback \$1;
! #X text 180 140 <- inserts the data at the;
! #X symbolatom 121 120 10 0 0 0 - - -;
! #X msg 66 180 pushfront \$1;
! #X floatatom 76 161 5 0 0 0 - - -;
! #X symbolatom 119 161 10 0 0 0 - - -;
! #X msg 66 252 popfront;
! #X msg 66 302 back;
! #X msg 66 324 front;
! #X obj 66 367 s \$0-list;
! #X text 200 155 front/back of the list;
! #X text 152 244 the back/front;
! #X text 130 231 <- removes the element from;
! #X text 143 316 the back/front;
! #X text 121 301 <- gives out the element from;
! #X text 27 28 insert/remove/get data at the back/front of the list.
! ;
! #X text 27 44 These methods won't change the current iterator position
! !!!;
! #X connect 0 0 11 0;
! #X connect 1 0 2 0;
! #X connect 2 0 11 0;
! #X connect 4 0 2 0;
! #X connect 5 0 11 0;
! #X connect 6 0 5 0;
! #X connect 7 0 5 0;
! #X connect 8 0 11 0;
! #X connect 9 0 11 0;
! #X connect 10 0 11 0;
! #X restore 136 494 pd pusch_pop_back_front;
! #X text 40 452 insert/remove/get data at the back/front of the list
! \,;
! #X text 43 247 You can use so called "iterators" to navigate through
! ;
! #X text 40 468 _without_ changing the current iterator position:;
! #N canvas 843 44 493 562 iterator_navigation 0;
! #X text 39 73 Iterators are a generalization of pointers: they are
! objects that point to other objects. Via an iterator you can navigate
! through the container. You can ask a list for an iterator that points
! to the first element with the message begin. You can get a past-the-end
! iterator with the message end.;
! #X text 182 35 ::: ITERATORS :::;
! #X msg 43 216 begin;
! #X msg 43 321 next;
! #X text 40 179 iterator navigation:;
! #X obj 43 505 s \$0-list;
! #X text 91 217 <- points to the first element fo the h_list;
! #X text 87 244 <- points _after_ the last element of the h_list;
! #X text 94 259 (so that you can insert data there for example \,;
! #X text 99 274 but attention: you can't remove an element at;
! #X text 98 289 that position !!!);
! #X text 85 321 <- increment the iterator - so it will point to;
! #X text 107 335 the next element of h_list;
! #X msg 43 244 end;
! #X msg 43 357 last;
! #X text 84 358 <- decrement the iterator - so it will point to;
! #X text 106 372 the previous element of h_list;
! #X msg 43 400 getiter;
! #X text 113 401 <- puts out the current iterator position;
! #X text 134 416 at second outlet;
! #X msg 57 467 setiter \$1;
! #X floatatom 57 448 5 0 0 0 - - -;
! #X text 147 467 <- set specific iterator position;
! #X connect 2 0 5 0;
! #X connect 3 0 5 0;
! #X connect 13 0 5 0;
! #X connect 14 0 5 0;
! #X connect 17 0 5 0;
! #X connect 20 0 5 0;
! #X connect 21 0 20 0;
! #X restore 137 303 pd iterator_navigation;
! #X text 43 261 the h_list. Here is a short explanation of iterators
! ;
! #X text 43 275 and how you can use it in with h_list:;
! #X text 45 364 operations at a specific iterator position:;
! #N canvas 0 469 468 430 iterator_operations 0;
! #X obj 54 389 s \$0-list;
! #X msg 54 283 delete;
! #X msg 54 113 insert \$1;
! #X floatatom 54 92 5 0 0 0 - - -;
! #X msg 54 338 get;
! #X symbolatom 100 92 10 0 0 0 - - -;
! #X text 48 33 Operations at a specific iterator position :;
! #X msg 54 137 insert bla sdflj 34 fd;
! #X text 235 126 current iterator position;
! #X text 212 111 <- inserts the data at the;
! #X text 139 299 current iterator position;
! #X text 116 284 <- deletes the data at the;
! #X text 138 355 current iterator position;
! #X text 115 340 <- get the data at the;
! #X msg 54 230 modify hallo da du;
! #X floatatom 68 171 5 0 0 0 - - -;
! #X symbolatom 68 189 10 0 0 0 - - -;
! #X msg 54 208 modify \$1;
! #X text 211 188 <- modifies the data at the;
! #X text 232 203 current iterator position;
! #X text 231 219 (it overrides the data);
! #X connect 1 0 0 0;
! #X connect 2 0 0 0;
! #X connect 3 0 2 0;
! #X connect 4 0 0 0;
! #X connect 5 0 2 0;
! #X connect 7 0 0 0;
! #X connect 14 0 0 0;
! #X connect 15 0 17 0;
! #X connect 16 0 17 0;
! #X connect 17 0 0 0;
! #X restore 138 388 pd iterator_operations;
! #X text 39 550 special operations with h_list:;
! #N canvas 705 269 550 449 special_operations 0;
! #X msg 54 289 unique;
! #X msg 54 237 reverse;
! #X msg 54 189 sort;
! #X obj 54 369 s \$0-list;
! #X text 30 28 special operations with h_list:;
! #X floatatom 54 92 5 0 0 0 - - -;
! #X symbolatom 100 92 10 0 0 0 - - -;
! #X msg 54 113 remove \$1;
! #X msg 54 137 remove bla sdflj 34 fd;
! #X text 212 111 <- removes the element with;
! #X text 235 126 the given data;
! #X text 124 237 <- reverses the h_list;
! #X text 102 190 <- sorts the h_list;
! #X text 113 289 <- Removes all but the first element in every consecutive
! group of equal elements. The relative order of elements that are not
! removed is unchanged.;
! #X connect 0 0 3 0;
! #X connect 1 0 3 0;
! #X connect 2 0 3 0;
! #X connect 5 0 7 0;
! #X connect 6 0 7 0;
! #X connect 7 0 3 0;
! #X connect 8 0 3 0;
! #X restore 134 578 pd special_operations;
! #X text 217 720 <- bang if not found;
! #X floatatom 563 730 5 0 0 0 - - -;
! #X text 565 750 <- current iterator position;
! #X floatatom 151 721 5 0 0 0 - - -;
! #X floatatom 111 721 5 0 0 0 - - -;
! #X msg 483 604 getiter;
! #X text 548 560 <- get the size (at 3nd;
! #X text 574 620 (2nd outlet);
! #X text 553 605 <- get current iterator pos;
! #X obj 500 28 cnv 15 204 120 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 502 30 cnv 15 200 116 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
***************
*** 46,51 ****
#X restore 39 503 pd namespace_example;
#X text 161 554 ::: DATATYPES :::;
- #X text 41 579 In the containers you can save all of the build-in datatypes:
- lists \, floats \, and symbol.;
#X text 38 296 As storage datastructures I implemented the C++ STL
(Standard Template Library) Containers in PD. Currently following datastructures
--- 231,234 ----
***************
*** 76,87 ****
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
- #X text 111 659 ( If you use lists as key you can also make a multidimensional
- matrix ! );
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs with lists \, you don't have to update the
! send-receive pairs all the time \, you can use send-receive "namespaces"
\, ...;
#X connect 1 0 0 0;
#X connect 2 0 0 1;
--- 259,270 ----
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs \, you don't have to update the send-receive
! pairs all the time (like [value]) \, you can use send-receive "namespaces"
\, ...;
+ #X text 111 659 ( If you use lists as key you can also make a multidimensional
+ matrix ... );
#X connect 1 0 0 0;
#X connect 2 0 0 1;
***************
*** 99,109 ****
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 159 669 ::: SAVE/LOAD :::;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into the specific container. (In
! future I'll also make a XML-fileformat \, which will be easier to edit
! !);
! #N canvas 215 140 716 536 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
--- 282,290 ----
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X text 41 579 In the containers you can save all of the PD build-in
! datatypes: lists \, floats \, and symbol.;
! #N canvas 215 140 716 600 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
***************
*** 115,129 ****
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 368 320 h_list \$0-local;
! #X msg 368 235 save example.dat;
! #X msg 393 284 print;
! #X text 493 236 <- save data as file;
#X obj 140 477 h_set blablu;
! #X msg 140 405 read example.dat;
! #X text 274 405 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
--- 296,317 ----
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 333 321 h_list \$0-local;
! #X msg 358 285 print;
#X obj 140 477 h_set blablu;
! #X msg 140 413 read example.dat;
! #X text 274 413 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
+ #X msg 333 207 saveXML example.xml;
+ #X text 457 238 <- save data as file;
+ #X msg 333 238 save example.dat;
+ #X text 477 208 <- save data as XML file;
+ #X msg 140 378 readXML example.xml;
+ #X text 283 379 <- read the same XML data now into a h_set;
+ #X text 22 529 Please use the XML fileformat if possible \, because
+ it's easier to edit in an external editor and the XML parser is much
+ more stable !;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
***************
*** 134,174 ****
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 10 0 8 0;
! #X connect 13 0 12 0;
! #X connect 16 0 12 0;
! #X restore 42 771 pd save_load_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X restore 561 97 pd General_Concept;
! #X obj 49 38 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 51 40 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 311 50 help file of;
! #X text 194 842 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)gmx.at>
! \, 2004;
! #X text 52 112 init arg: namespace;
! #X msg 496 307 print;
! #X msg 496 351 clear;
! #X msg 496 662 help;
! #X obj 617 721 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X msg 496 248 getnamespace;
! #X msg 496 389 clearall;
! #X obj 496 778 print BBB;
! #X text 607 273 <- change namespace;
! #X msg 496 272 namespace grix;
! #X text 543 308 <- print all the data of the;
! #X text 562 323 current namespace;
! #X text 544 351 <- clear all the data of the;
! #X text 565 366 current namespace;
! #X text 564 391 <- clear all the data in all;
! #X text 585 406 same containers (maybe;
! #X text 587 421 you shouldn't use this);
! #X text 601 454 <- save all the data of;
! #X text 598 469 current namespac to disk;
! #X text 595 495 <- read this file to;
! #X text 596 250 <- get current namespace;
! #X text 527 207 general operations:;
#N canvas 205 0 993 742 Container_Explanation 0;
#X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
--- 322,339 ----
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 11 0 10 0;
! #X connect 14 0 10 0;
! #X connect 15 0 8 0;
! #X connect 17 0 8 0;
! #X connect 19 0 10 0;
! #X restore 40 797 pd save_load_example;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into a container. You can also
! load data from other containers. Please use the XML fileformat if possible
! \, because it's easier to edit in an external editor and the XML parser
! is much more stable.;
! #X text 164 671 ::: SAVE/LOAD :::;
! #X restore 536 66 pd General_Concept;
#N canvas 205 0 993 742 Container_Explanation 0;
#X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
***************
*** 238,424 ****
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 543 128 pd Container_Explanation;
! #X msg 496 570 getsize;
! #X text 609 509 current namespace and;
! #X msg 496 454 save data.dat;
! #X msg 496 495 read data.dat;
! #X floatatom 536 758 5 0 0 0 - - -;
! #X text 583 583 outlet);
! #X text 303 67 ::: h_list :::;
! #X text 53 142 Fast insertion and removal anywhere \, all the other
! elements move up. But a list provides only sequential access (not via
! index !). A list is a doubly linked list.;
! #X text 609 523 add it at the current;
! #X text 610 537 iterator position;
! #X obj 496 700 h_list simonatbase;
! #X text 617 739 <- size of the list;
! #X obj 205 730 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X obj 84 709 h_list simonatbase;
! #X obj 84 683 r \$0-list;
! #X obj 84 748 print AAA;
! #N canvas 523 246 495 416 pusch_pop_back_front 0;
! #X msg 66 229 popback;
! #X floatatom 76 120 5 0 0 0 - - -;
! #X msg 66 140 pushback \$1;
! #X text 180 140 <- inserts the data at the;
! #X symbolatom 121 120 10 0 0 0 - - -;
! #X msg 66 180 pushfront \$1;
! #X floatatom 76 161 5 0 0 0 - - -;
! #X symbolatom 119 161 10 0 0 0 - - -;
! #X msg 66 252 popfront;
! #X msg 66 302 back;
! #X msg 66 324 front;
! #X obj 66 367 s \$0-list;
! #X text 200 155 front/back of the list;
! #X text 152 244 the back/front;
! #X text 130 231 <- removes the element from;
! #X text 143 316 the back/front;
! #X text 121 301 <- gives out the element from;
! #X text 27 28 insert/remove/get data at the back/front of the list.
;
! #X text 27 44 These methods won't change the current iterator position
! !!!;
! #X connect 0 0 11 0;
! #X connect 1 0 2 0;
! #X connect 2 0 11 0;
! #X connect 4 0 2 0;
! #X connect 5 0 11 0;
! #X connect 6 0 5 0;
! #X connect 7 0 5 0;
! #X connect 8 0 11 0;
! #X connect 9 0 11 0;
! #X connect 10 0 11 0;
! #X restore 149 503 pd pusch_pop_back_front;
! #X text 53 461 insert/remove/get data at the back/front of the list
! \,;
! #X text 56 256 You can use so called "iterators" to navigate through
;
! #X text 53 477 _without_ changing the current iterator position:;
! #N canvas 843 44 493 562 iterator_navigation 0;
! #X text 39 73 Iterators are a generalization of pointers: they are
! objects that point to other objects. Via an iterator you can navigate
! through the container. You can ask a list for an iterator that points
! to the first element with the message begin. You can get a past-the-end
! iterator with the message end.;
! #X text 182 35 ::: ITERATORS :::;
! #X msg 43 216 begin;
! #X msg 43 321 next;
! #X text 40 179 iterator navigation:;
! #X obj 43 505 s \$0-list;
! #X text 91 217 <- points to the first element fo the h_list;
! #X text 87 244 <- points _after_ the last element of the h_list;
! #X text 94 259 (so that you can insert data there for example \,;
! #X text 99 274 but attention: you can't remove an element at;
! #X text 98 289 that position !!!);
! #X text 85 321 <- increment the iterator - so it will point to;
! #X text 107 335 the next element of h_list;
! #X msg 43 244 end;
! #X msg 43 357 last;
! #X text 84 358 <- decrement the iterator - so it will point to;
! #X text 106 372 the previous element of h_list;
! #X msg 43 400 getiter;
! #X text 113 401 <- puts out the current iterator position;
! #X text 134 416 at second outlet;
! #X msg 57 467 setiter \$1;
! #X floatatom 57 448 5 0 0 0 - - -;
! #X text 147 467 <- set specific iterator position;
! #X connect 2 0 5 0;
! #X connect 3 0 5 0;
! #X connect 13 0 5 0;
! #X connect 14 0 5 0;
! #X connect 17 0 5 0;
! #X connect 20 0 5 0;
! #X connect 21 0 20 0;
! #X restore 150 312 pd iterator_navigation;
! #X text 56 270 the h_list. Here is a short explanation of iterators
;
! #X text 56 284 and how you can use it in with h_list:;
! #X text 58 373 operations at a specific iterator position:;
! #N canvas 0 469 468 430 iterator_operations 0;
! #X obj 54 389 s \$0-list;
! #X msg 54 283 delete;
! #X msg 54 113 insert \$1;
! #X floatatom 54 92 5 0 0 0 - - -;
! #X msg 54 338 get;
! #X symbolatom 100 92 10 0 0 0 - - -;
! #X text 48 33 Operations at a specific iterator position :;
! #X msg 54 137 insert bla sdflj 34 fd;
! #X text 235 126 current iterator position;
! #X text 212 111 <- inserts the data at the;
! #X text 139 299 current iterator position;
! #X text 116 284 <- deletes the data at the;
! #X text 138 355 current iterator position;
! #X text 115 340 <- get the data at the;
! #X msg 54 230 modify hallo da du;
! #X floatatom 68 171 5 0 0 0 - - -;
! #X symbolatom 68 189 10 0 0 0 - - -;
! #X msg 54 208 modify \$1;
! #X text 211 188 <- modifies the data at the;
! #X text 232 203 current iterator position;
! #X text 231 219 (it overrides the data);
#X connect 1 0 0 0;
#X connect 2 0 0 0;
- #X connect 3 0 2 0;
- #X connect 4 0 0 0;
- #X connect 5 0 2 0;
#X connect 7 0 0 0;
! #X connect 14 0 0 0;
! #X connect 15 0 17 0;
! #X connect 16 0 17 0;
! #X connect 17 0 0 0;
! #X restore 151 397 pd iterator_operations;
! #X text 52 559 special operations with h_list:;
! #N canvas 705 269 550 449 special_operations 0;
! #X msg 54 289 unique;
! #X msg 54 237 reverse;
! #X msg 54 189 sort;
! #X obj 54 369 s \$0-list;
! #X text 30 28 special operations with h_list:;
! #X floatatom 54 92 5 0 0 0 - - -;
! #X symbolatom 100 92 10 0 0 0 - - -;
! #X msg 54 113 remove \$1;
! #X msg 54 137 remove bla sdflj 34 fd;
! #X text 212 111 <- removes the element with;
! #X text 235 126 the given data;
! #X text 124 237 <- reverses the h_list;
! #X text 102 190 <- sorts the h_list;
! #X text 113 289 <- Removes all but the first element in every consecutive
! group of equal elements. The relative order of elements that are not
! removed is unchanged.;
! #X connect 0 0 3 0;
! #X connect 1 0 3 0;
! #X connect 2 0 3 0;
! #X connect 5 0 7 0;
! #X connect 6 0 7 0;
! #X connect 7 0 3 0;
! #X connect 8 0 3 0;
! #X restore 147 587 pd special_operations;
! #X text 230 729 <- bang if not found;
! #X floatatom 576 739 5 0 0 0 - - -;
! #X text 578 759 <- current iterator position;
! #X floatatom 164 730 5 0 0 0 - - -;
! #X floatatom 124 730 5 0 0 0 - - -;
! #X msg 496 613 getiter;
! #X text 561 569 <- get the size (at 3nd;
! #X text 587 629 (2nd outlet);
! #X text 566 614 <- get current iterator pos;
! #X connect 8 0 40 0;
! #X connect 9 0 40 0;
! #X connect 10 0 40 0;
! #X connect 12 0 40 0;
! #X connect 13 0 40 0;
! #X connect 16 0 40 0;
! #X connect 30 0 40 0;
! #X connect 32 0 40 0;
! #X connect 33 0 40 0;
! #X connect 40 0 14 0;
! #X connect 40 1 34 0;
! #X connect 40 2 58 0;
! #X connect 40 3 11 0;
! #X connect 43 0 45 0;
! #X connect 43 1 61 0;
! #X connect 43 2 60 0;
! #X connect 43 3 42 0;
! #X connect 44 0 43 0;
! #X connect 62 0 40 0;
--- 403,522 ----
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 518 94 pd Container_Explanation;
! #N canvas 254 0 927 786 Fileformats 0;
! #X obj 38 27 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 40 29 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 259 56 PDContainer;
! #X text 257 38 different fileformats of;
! #X text 472 116 Please use the XML fileformat if possible \, because
! it's easier to edit in an external editor and the XML parser is much
! more stable!;
! #X text 40 582 s go;
! #X text 40 569 f 2 s wow f 2;
! #X text 40 599 f 23;
! #X text 38 634 (f=float \, s=symbol);
! #X text 37 171 a) single elements: are the containers h_vector \, h_list
! \, h_deque \, h_set \, h_multiset;
! #X text 471 172 b) key-value pairs: are the containers h_map and h_multimap
;
! #X text 469 276 2.element: symbol go;
! #X text 476 698 f 2 s wow - f 2;
! #X text 476 712 s go - s not f 34;
! #X text 476 729 f 23 - s op;
! #X text 488 244 key: list 2 wow;
! #X text 470 229 1.element:;
! #X text 488 258 value: float 2;
! #X text 490 291 key: symbol go;
! #X text 490 305 value: list symbol not float 34;
! #X text 39 243 1.element: list 2 wow 2;
! #X text 39 257 2.element: symbol go;
! #X text 38 272 3.element: float 23;
! #X text 37 223 a) example1:;
! #X text 470 212 b) example2:;
! #X text 37 312 a) example1 \, XML:;
! #X text 37 339 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 37 353 <PDContainer type="h_list">;
! #X text 54 366 <element>;
! #X text 70 379 <f> 2 </f>;
! #X text 70 405 <f> 2 </f>;
! #X text 56 418 </element>;
! #X text 70 391 <s> wow </s>;
! #X text 56 431 <element>;
! #X text 57 455 </element>;
! #X text 72 443 <s> go </s>;
! #X text 56 468 <element>;
! #X text 57 492 </element>;
! #X text 72 480 <f> 23 </f>;
! #X text 41 506 </PDContainer>;
! #X text 41 542 a) example1 \, textfile:;
! #X text 39 115 You can save the data of the containers to XML files
! and normal textfiles (see General_Concept).;
! #X text 469 375 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 469 389 <PDContainer type="h_list">;
! #X text 486 402 <element>;
! #X text 519 430 <f> 2 </f>;
! #X text 520 482 <f> 2 </f>;
! #X text 488 506 </element>;
! #X text 519 442 <s> wow </s>;
! #X text 475 634 </PDContainer>;
! #X text 469 348 b) example2 \, XML:;
! #X text 503 415 <key>;
! #X text 504 456 </key>;
! #X text 503 468 <value>;
! #X text 504 494 </value>;
! #X text 487 519 <element>;
! #X text 489 621 </element>;
! #X text 504 532 <key>;
! #X text 505 559 </key>;
! #X text 504 571 <value>;
! #X text 505 609 </value>;
! #X text 520 545 <s> go </s>;
! #X text 521 584 <s> not </s>;
! #X text 521 597 <f> 34 </f>;
! #X text 476 668 b) example2 \, textfile:;
! #X restore 550 120 pd Fileformats;
! #N canvas 174 18 646 317 read_save_possibilities 0;
! #X obj 50 258 outlet;
! #X msg 50 158 save data.dat;
! #X msg 50 194 read data.dat;
! #X text 155 158 <- save all the data of the current namespace as textfile
;
! #X text 149 194 <- read this textfile to the current namespace and
! insert it at the back (so the size will increase);
! #X text 173 83 <- read this XML-file to the current namespace and insert
! it at the back (so the size will increase);
! #X text 176 50 <- save all the data of the current namespace as XML-file
! ;
! #X msg 51 50 saveXML data.xml;
! #X msg 51 82 readXML data.xml;
#X connect 1 0 0 0;
#X connect 2 0 0 0;
#X connect 7 0 0 0;
! #X connect 8 0 0 0;
! #X restore 483 459 pd read_save_possibilities;
! #X text 523 483 different possiblities to read;
! #X text 523 497 and write from and to files;
! #X text 522 512 (XML and textfiles);
! #X text 234 821 htttp://grh.mur.at/software/pdcontainer.html;
! #X text 194 805 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)mur.at>
! \, 2004;
! #X connect 4 0 27 0;
! #X connect 5 0 27 0;
! #X connect 6 0 27 0;
! #X connect 8 0 27 0;
! #X connect 9 0 27 0;
! #X connect 12 0 27 0;
! #X connect 22 0 27 0;
! #X connect 27 0 10 0;
! #X connect 27 1 23 0;
! #X connect 27 2 45 0;
! #X connect 27 3 7 0;
! #X connect 30 0 32 0;
! #X connect 30 1 48 0;
! #X connect 30 2 47 0;
! #X connect 30 3 29 0;
! #X connect 31 0 30 0;
! #X connect 49 0 27 0;
! #X connect 58 0 27 0;
Index: help-h_multiset.pd
===================================================================
RCS file: /cvsroot/pure-data/externals/PDContainer/help/help-h_multiset.pd,v
retrieving revision 1.2
retrieving revision 1.3
diff -C2 -d -r1.2 -r1.3
*** help-h_multiset.pd 29 Oct 2004 11:56:13 -0000 1.2
--- help-h_multiset.pd 5 May 2005 22:59:33 -0000 1.3
***************
*** 1,7 ****
! #N canvas 157 0 817 875 10;
#X msg 154 388 add ge;
! #X obj 514 131 cnv 15 204 104 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 516 133 cnv 15 200 100 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
--- 1,64 ----
! #N canvas 0 0 817 875 10;
#X msg 154 388 add ge;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 295 36 help file of;
! #X text 37 100 init arg: namespace;
! #X msg 470 377 print;
! #X msg 470 421 clear;
! #X msg 470 642 help;
! #X msg 470 318 getnamespace;
! #X msg 470 459 clearall;
! #X text 581 343 <- change namespace;
! #X msg 470 342 namespace grix;
! #X text 517 378 <- print all the data of the;
! #X text 536 393 current namespace;
! #X text 518 421 <- clear all the data of the;
! #X text 539 436 current namespace;
! #X text 538 461 <- clear all the data in all;
! #X text 559 476 same containers (maybe;
! #X text 561 491 you shouldn't use this);
! #X text 570 320 <- get current namespace;
! #X text 469 266 general operations:;
! #X msg 154 362 add bla bal tuff;
! #X msg 154 412 add 4 f 3;
! #X msg 154 337 add \$1;
! #X floatatom 154 299 5 0 0 0 - - -;
! #X symbolatom 201 301 10 0 0 0 - - -;
! #X floatatom 84 578 5 0 0 0 - - -;
! #X symbolatom 131 580 10 0 0 0 - - -;
! #X text 139 544 get \, remove data:;
! #X msg 84 616 get \$1;
! #X msg 84 641 get bla bal tuff;
! #X msg 84 667 get ge;
! #X msg 84 691 get 4 f 3;
! #X floatatom 227 582 5 0 0 0 - - -;
! #X symbolatom 274 584 10 0 0 0 - - -;
! #X msg 227 620 remove \$1;
! #X msg 227 645 remove bla bal tuff;
! #X msg 227 671 remove ge;
! #X msg 227 695 remove 4 f 3;
! #X floatatom 84 757 5 0 0 0 - - -;
! #X floatatom 470 696 5 0 0 0 - - -;
! #X floatatom 154 477 5 0 0 0 - - -;
! #X text 275 52 ::: h_multiset :::;
! #X obj 154 453 h_multiset \$0-pscht;
! #X obj 84 731 h_multiset \$0-pscht;
! #X obj 470 673 h_multiset \$0-pscht;
! #X text 131 757 <- the number how often the data is set;
! #X text 37 137 Multisets are just like sets \, except that you can
! have several copies of the same element. Multiset is a Sorted Associative
! Container and a Multiple Associative Container \, meaning that two
! or more elements may be identical. (see also Set);
! #X text 140 268 add data to the multiset:;
! #X msg 470 605 getsize;
! #X text 535 604 <- get the size (at 2nd;
! #X text 557 618 outlet);
! #X obj 598 695 print size;
! #X obj 500 24 cnv 15 204 120 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 502 26 cnv 15 200 116 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
***************
*** 47,52 ****
#X restore 39 503 pd namespace_example;
#X text 161 554 ::: DATATYPES :::;
- #X text 41 579 In the containers you can save all of the build-in datatypes:
- lists \, floats \, and symbol.;
#X text 38 296 As storage datastructures I implemented the C++ STL
(Standard Template Library) Containers in PD. Currently following datastructures
--- 104,107 ----
***************
*** 77,88 ****
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
- #X text 111 659 ( If you use lists as key you can also make a multidimensional
- matrix ! );
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs with lists \, you don't have to update the
! send-receive pairs all the time \, you can use send-receive "namespaces"
\, ...;
#X connect 1 0 0 0;
#X connect 2 0 0 1;
--- 132,143 ----
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs \, you don't have to update the send-receive
! pairs all the time (like [value]) \, you can use send-receive "namespaces"
\, ...;
+ #X text 111 659 ( If you use lists as key you can also make a multidimensional
+ matrix ... );
#X connect 1 0 0 0;
#X connect 2 0 0 1;
***************
*** 100,110 ****
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 159 669 ::: SAVE/LOAD :::;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into the specific container. (In
! future I'll also make a XML-fileformat \, which will be easier to edit
! !);
! #N canvas 215 140 716 536 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
--- 155,163 ----
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X text 41 579 In the containers you can save all of the PD build-in
! datatypes: lists \, floats \, and symbol.;
! #N canvas 215 140 716 600 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
***************
*** 116,130 ****
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 368 320 h_list \$0-local;
! #X msg 368 235 save example.dat;
! #X msg 393 284 print;
! #X text 493 236 <- save data as file;
#X obj 140 477 h_set blablu;
! #X msg 140 405 read example.dat;
! #X text 274 405 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
--- 169,190 ----
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 333 321 h_list \$0-local;
! #X msg 358 285 print;
#X obj 140 477 h_set blablu;
! #X msg 140 413 read example.dat;
! #X text 274 413 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
+ #X msg 333 207 saveXML example.xml;
+ #X text 457 238 <- save data as file;
+ #X msg 333 238 save example.dat;
+ #X text 477 208 <- save data as XML file;
+ #X msg 140 378 readXML example.xml;
+ #X text 283 379 <- read the same XML data now into a h_set;
+ #X text 22 529 Please use the XML fileformat if possible \, because
+ it's easier to edit in an external editor and the XML parser is much
+ more stable !;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
***************
*** 135,204 ****
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 10 0 8 0;
! #X connect 13 0 12 0;
! #X connect 16 0 12 0;
! #X restore 42 771 pd save_load_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X restore 550 170 pd General_Concept;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 295 36 help file of;
! #X text 213 828 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)gmx.at>
! \, 2004;
! #X text 37 100 init arg: namespace;
! #X msg 474 411 print;
! #X msg 474 455 clear;
! #X msg 474 676 help;
! #X msg 474 352 getnamespace;
! #X msg 474 493 clearall;
! #X text 585 377 <- change namespace;
! #X msg 474 376 namespace grix;
! #X text 521 412 <- print all the data of the;
! #X text 540 427 current namespace;
! #X text 522 455 <- clear all the data of the;
! #X text 543 470 current namespace;
! #X text 542 495 <- clear all the data in all;
! #X text 563 510 same containers (maybe;
! #X text 565 525 you shouldn't use this);
! #X text 575 559 <- save all the data of;
! #X text 572 574 current namespac to disk;
! #X text 573 599 <- read this file to;
! #X text 594 613 current namespace;
! #X text 574 354 <- get current namespace;
! #X text 473 300 general operations:;
! #X msg 154 362 add bla bal tuff;
! #X msg 154 412 add 4 f 3;
! #X msg 154 337 add \$1;
! #X floatatom 154 299 5 0 0 0 - - -;
! #X symbolatom 201 301 10 0 0 0 - - -;
! #X floatatom 84 578 5 0 0 0 - - -;
! #X symbolatom 131 580 10 0 0 0 - - -;
! #X text 139 544 get \, remove data:;
! #X msg 84 616 get \$1;
! #X msg 84 641 get bla bal tuff;
! #X msg 84 667 get ge;
! #X msg 84 691 get 4 f 3;
! #X floatatom 227 582 5 0 0 0 - - -;
! #X symbolatom 274 584 10 0 0 0 - - -;
! #X msg 227 620 remove \$1;
! #X msg 227 645 remove bla bal tuff;
! #X msg 227 671 remove ge;
! #X msg 227 695 remove 4 f 3;
! #X floatatom 84 757 5 0 0 0 - - -;
! #X floatatom 474 730 5 0 0 0 - - -;
! #X floatatom 154 477 5 0 0 0 - - -;
! #X text 275 52 ::: h_multiset :::;
! #X obj 154 453 h_multiset \$0-pscht;
! #X obj 84 731 h_multiset \$0-pscht;
! #X obj 474 707 h_multiset \$0-pscht;
! #X text 131 757 <- the number how often the data is set;
! #X text 37 137 Multisets are just like sets \, except that you can
! have several copies of the same element. Multiset is a Sorted Associative
! Container and a Multiple Associative Container \, meaning that two
! or more elements may be identical. (see also Set);
! #X text 140 268 add data to the multiset:;
#N canvas 205 0 993 742 Container_Explanation 0;
#X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
--- 195,212 ----
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 11 0 10 0;
! #X connect 14 0 10 0;
! #X connect 15 0 8 0;
! #X connect 17 0 8 0;
! #X connect 19 0 10 0;
! #X restore 40 797 pd save_load_example;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into a container. You can also
! load data from other containers. Please use the XML fileformat if possible
! \, because it's easier to edit in an external editor and the XML parser
! is much more stable.;
! #X text 164 671 ::: SAVE/LOAD :::;
! #X restore 536 62 pd General_Concept;
#N canvas 205 0 993 742 Container_Explanation 0;
#X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
***************
*** 268,307 ****
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 532 201 pd Container_Explanation;
! #X msg 474 558 save set.dat;
! #X msg 474 599 read set.dat;
! #X msg 474 639 getsize;
! #X text 539 638 <- get the size (at 2nd;
! #X text 561 652 outlet);
! #X obj 602 729 print size;
! #X connect 0 0 51 0;
! #X connect 9 0 53 0;
! #X connect 10 0 53 0;
! #X connect 11 0 53 0;
! #X connect 12 0 53 0;
! #X connect 13 0 53 0;
! #X connect 15 0 53 0;
! #X connect 29 0 51 0;
! #X connect 30 0 51 0;
! #X connect 31 0 51 0;
! #X connect 32 0 31 0;
! #X connect 33 0 31 0;
! #X connect 34 0 37 0;
! #X connect 35 0 37 0;
! #X connect 37 0 52 0;
! #X connect 38 0 52 0;
! #X connect 39 0 52 0;
! #X connect 40 0 52 0;
! #X connect 41 0 43 0;
! #X connect 42 0 43 0;
! #X connect 43 0 52 0;
! #X connect 44 0 52 0;
! #X connect 45 0 52 0;
! #X connect 46 0 52 0;
! #X connect 51 0 49 0;
! #X connect 52 0 47 0;
! #X connect 53 0 48 0;
! #X connect 53 1 63 0;
! #X connect 58 0 53 0;
! #X connect 59 0 53 0;
! #X connect 60 0 53 0;
--- 276,407 ----
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 518 90 pd Container_Explanation;
! #N canvas 254 0 927 786 Fileformats 0;
! #X obj 38 27 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 40 29 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 259 56 PDContainer;
! #X text 257 38 different fileformats of;
! #X text 472 116 Please use the XML fileformat if possible \, because
! it's easier to edit in an external editor and the XML parser is much
! more stable!;
! #X text 40 582 s go;
! #X text 40 569 f 2 s wow f 2;
! #X text 40 599 f 23;
! #X text 38 634 (f=float \, s=symbol);
! #X text 37 171 a) single elements: are the containers h_vector \, h_list
! \, h_deque \, h_set \, h_multiset;
! #X text 471 172 b) key-value pairs: are the containers h_map and h_multimap
! ;
! #X text 469 276 2.element: symbol go;
! #X text 476 698 f 2 s wow - f 2;
! #X text 476 712 s go - s not f 34;
! #X text 476 729 f 23 - s op;
! #X text 488 244 key: list 2 wow;
! #X text 470 229 1.element:;
! #X text 488 258 value: float 2;
! #X text 490 291 key: symbol go;
! #X text 490 305 value: list symbol not float 34;
! #X text 39 243 1.element: list 2 wow 2;
! #X text 39 257 2.element: symbol go;
! #X text 38 272 3.element: float 23;
! #X text 37 223 a) example1:;
! #X text 470 212 b) example2:;
! #X text 37 312 a) example1 \, XML:;
! #X text 37 339 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 37 353 <PDContainer type="h_list">;
! #X text 54 366 <element>;
! #X text 70 379 <f> 2 </f>;
! #X text 70 405 <f> 2 </f>;
! #X text 56 418 </element>;
! #X text 70 391 <s> wow </s>;
! #X text 56 431 <element>;
! #X text 57 455 </element>;
! #X text 72 443 <s> go </s>;
! #X text 56 468 <element>;
! #X text 57 492 </element>;
! #X text 72 480 <f> 23 </f>;
! #X text 41 506 </PDContainer>;
! #X text 41 542 a) example1 \, textfile:;
! #X text 39 115 You can save the data of the containers to XML files
! and normal textfiles (see General_Concept).;
! #X text 469 375 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 469 389 <PDContainer type="h_list">;
! #X text 486 402 <element>;
! #X text 519 430 <f> 2 </f>;
! #X text 520 482 <f> 2 </f>;
! #X text 488 506 </element>;
! #X text 519 442 <s> wow </s>;
! #X text 475 634 </PDContainer>;
! #X text 469 348 b) example2 \, XML:;
! #X text 503 415 <key>;
! #X text 504 456 </key>;
! #X text 503 468 <value>;
! #X text 504 494 </value>;
! #X text 487 519 <element>;
! #X text 489 621 </element>;
! #X text 504 532 <key>;
! #X text 505 559 </key>;
! #X text 504 571 <value>;
! #X text 505 609 </value>;
! #X text 520 545 <s> go </s>;
! #X text 521 584 <s> not </s>;
! #X text 521 597 <f> 34 </f>;
! #X text 476 668 b) example2 \, textfile:;
! #X restore 550 116 pd Fileformats;
! #N canvas 174 18 646 317 read_save_possibilities 0;
! #X obj 50 258 outlet;
! #X msg 50 158 save data.dat;
! #X msg 50 194 read data.dat;
! #X text 155 158 <- save all the data of the current namespace as textfile
! ;
! #X text 149 194 <- read this textfile to the current namespace and
! insert it at the back (so the size will increase);
! #X text 173 83 <- read this XML-file to the current namespace and insert
! it at the back (so the size will increase);
! #X text 176 50 <- save all the data of the current namespace as XML-file
! ;
! #X msg 51 50 saveXML data.xml;
! #X msg 51 82 readXML data.xml;
! #X connect 1 0 0 0;
! #X connect 2 0 0 0;
! #X connect 7 0 0 0;
! #X connect 8 0 0 0;
! #X restore 470 524 pd read_save_possibilities;
! #X text 508 545 different possiblities to read;
! #X text 508 559 and write from and to files;
! #X text 507 573 (XML and textfiles);
! #X text 244 827 htttp://grh.mur.at/software/pdcontainer.html;
! #X text 204 811 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)mur.at>
! \, 2004;
! #X connect 0 0 43 0;
! #X connect 5 0 45 0;
! #X connect 6 0 45 0;
! #X connect 7 0 45 0;
! #X connect 8 0 45 0;
! #X connect 9 0 45 0;
! #X connect 11 0 45 0;
! #X connect 21 0 43 0;
! #X connect 22 0 43 0;
! #X connect 23 0 43 0;
! #X connect 24 0 23 0;
! #X connect 25 0 23 0;
! #X connect 26 0 29 0;
! #X connect 27 0 29 0;
! #X connect 29 0 44 0;
! #X connect 30 0 44 0;
! #X connect 31 0 44 0;
! #X connect 32 0 44 0;
! #X connect 33 0 35 0;
! #X connect 34 0 35 0;
! #X connect 35 0 44 0;
! #X connect 36 0 44 0;
! #X connect 37 0 44 0;
! #X connect 38 0 44 0;
! #X connect 43 0 41 0;
! #X connect 44 0 39 0;
! #X connect 45 0 40 0;
! #X connect 45 1 52 0;
! #X connect 49 0 45 0;
! #X connect 58 0 45 0;
Index: help-h_deque.pd
===================================================================
RCS file: /cvsroot/pure-data/externals/PDContainer/help/help-h_deque.pd,v
retrieving revision 1.1.1.1
retrieving revision 1.2
diff -C2 -d -r1.1.1.1 -r1.2
*** help-h_deque.pd 25 Oct 2004 19:02:32 -0000 1.1.1.1
--- help-h_deque.pd 5 May 2005 22:59:33 -0000 1.2
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*** 2,8 ****
#X obj 147 379 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
! #X obj 509 44 cnv 15 204 104 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 511 46 cnv 15 200 100 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
--- 2,8 ----
#X obj 147 379 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
! #X obj 498 23 cnv 15 204 120 empty empty empty 20 12 0 14 -66577 -66577
0;
! #X obj 500 25 cnv 15 200 116 empty empty ReadMe: 65 15 0 14 -262131
-143491 0;
#N canvas 674 0 511 843 General_Concept 0;
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*** 48,53 ****
#X restore 39 503 pd namespace_example;
#X text 161 554 ::: DATATYPES :::;
- #X text 41 579 In the containers you can save all of the build-in datatypes:
- lists \, floats \, and symbol.;
#X text 38 296 As storage datastructures I implemented the C++ STL
(Standard Template Library) Containers in PD. Currently following datastructures
--- 48,51 ----
***************
*** 78,89 ****
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
- #X text 111 659 ( If you use lists as key you can also make a multidimensional
- matrix ! );
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs with lists \, you don't have to update the
! send-receive pairs all the time \, you can use send-receive "namespaces"
\, ...;
#X connect 1 0 0 0;
#X connect 2 0 0 1;
--- 76,87 ----
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs \, you don't have to update the send-receive
! pairs all the time (like [value]) \, you can use send-receive "namespaces"
\, ...;
+ #X text 111 659 ( If you use lists as key you can also make a multidimensional
+ matrix ... );
#X connect 1 0 0 0;
#X connect 2 0 0 1;
***************
*** 101,111 ****
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 159 669 ::: SAVE/LOAD :::;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into the specific container. (In
! future I'll also make a XML-fileformat \, which will be easier to edit
! !);
! #N canvas 215 140 716 536 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
--- 99,107 ----
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X text 41 579 In the containers you can save all of the PD build-in
! datatypes: lists \, floats \, and symbol.;
! #N canvas 215 140 716 600 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
***************
*** 117,131 ****
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 368 320 h_list \$0-local;
! #X msg 368 235 save example.dat;
! #X msg 393 284 print;
! #X text 493 236 <- save data as file;
#X obj 140 477 h_set blablu;
! #X msg 140 405 read example.dat;
! #X text 274 405 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
--- 113,134 ----
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 333 321 h_list \$0-local;
! #X msg 358 285 print;
#X obj 140 477 h_set blablu;
! #X msg 140 413 read example.dat;
! #X text 274 413 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
+ #X msg 333 207 saveXML example.xml;
+ #X text 457 238 <- save data as file;
+ #X msg 333 238 save example.dat;
+ #X text 477 208 <- save data as XML file;
+ #X msg 140 378 readXML example.xml;
+ #X text 283 379 <- read the same XML data now into a h_set;
+ #X text 22 529 Please use the XML fileformat if possible \, because
+ it's easier to edit in an external editor and the XML parser is much
+ more stable !;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
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*** 136,146 ****
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 10 0 8 0;
! #X connect 13 0 12 0;
! #X connect 16 0 12 0;
! #X restore 42 771 pd save_load_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X restore 545 83 pd General_Concept;
#X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
--- 139,156 ----
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 11 0 10 0;
! #X connect 14 0 10 0;
! #X connect 15 0 8 0;
! #X connect 17 0 8 0;
! #X connect 19 0 10 0;
! #X restore 40 797 pd save_load_example;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into a container. You can also
! load data from other containers. Please use the XML fileformat if possible
! \, because it's easier to edit in an external editor and the XML parser
! is much more stable.;
! #X text 164 671 ::: SAVE/LOAD :::;
! #X restore 534 61 pd General_Concept;
#X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
***************
*** 148,162 ****
-66577 0;
#X text 295 36 help file of;
- #X text 194 830 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)gmx.at>
- \, 2004;
#X text 36 98 init arg: namespace;
#X msg 480 293 print;
#X msg 480 337 clear;
! #X msg 480 681 help;
! #X obj 558 732 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
#X msg 480 234 getnamespace;
#X msg 480 375 clearall;
! #X obj 480 780 print BBB;
#X obj 68 380 print AAA;
#X text 591 259 <- change namespace;
--- 158,170 ----
-66577 0;
#X text 295 36 help file of;
#X text 36 98 init arg: namespace;
#X msg 480 293 print;
#X msg 480 337 clear;
! #X msg 480 637 help;
! #X obj 559 688 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
#X msg 480 234 getnamespace;
#X msg 480 375 clearall;
! #X obj 480 736 print BBB;
#X obj 68 380 print AAA;
#X text 591 259 <- change namespace;
***************
*** 169,175 ****
#X text 569 392 same containers (maybe;
#X text 571 407 you shouldn't use this);
- #X text 585 440 <- save all the data of;
- #X text 582 455 current namespac to disk;
- #X text 579 481 <- read this file to;
#X text 580 236 <- get current namespace;
#X text 512 193 general operations:;
--- 177,180 ----
***************
*** 247,267 ****
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 527 114 pd Container_Explanation;
! #X msg 480 618 resize \$1;
! #X msg 480 652 getsize;
! #X text 593 495 current namespace and;
! #X text 592 509 it at the back (so the;
! #X text 593 524 size will increase);
! #X msg 480 440 save data.dat;
! #X msg 480 481 read data.dat;
! #X msg 480 547 readat data.dat 0;
! #X text 614 547 <- read the file at;
! #X text 635 563 the given index;
! #X text 624 579 (so that the size;
! #X text 625 593 won't increase);
! #X floatatom 488 590 5 0 0 0 - - -;
! #X floatatom 519 751 5 0 0 0 - - -;
! #X text 545 651 <- get the size (at 2nd;
! #X text 567 665 outlet);
#X msg 68 290 get \$1;
#X floatatom 74 269 5 0 0 0 - - -;
--- 252,262 ----
added (push). Top outputs the elements from the top without removing
it \, pop outputs and removes it.;
! #X restore 516 89 pd Container_Explanation;
! #X msg 480 574 resize \$1;
! #X msg 480 608 getsize;
! #X floatatom 488 546 5 0 0 0 - - -;
! #X floatatom 519 707 5 0 0 0 - - -;
! #X text 545 607 <- get the size (at 2nd;
! #X text 567 621 outlet);
#X msg 68 290 get \$1;
#X floatatom 74 269 5 0 0 0 - - -;
***************
*** 296,302 ****
#X obj 70 776 h_deque havi;
#X obj 69 619 h_deque havi;
! #X obj 480 708 h_deque havi;
! #X text 560 752 <- size of deque;
! #X text 556 619 <- resizes the deque;
#X text 187 702 Thats not very fast with a deque!;
#X msg 69 489 pushfront \$1;
--- 291,297 ----
#X obj 70 776 h_deque havi;
#X obj 69 619 h_deque havi;
! #X obj 480 664 h_deque havi;
! #X text 560 708 <- size of deque;
! #X text 556 575 <- resizes the deque;
#X text 187 702 Thats not very fast with a deque!;
#X msg 69 489 pushfront \$1;
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*** 313,356 ****
#X text 146 586 back/front;
#X obj 69 641 print CCC;
! #X connect 9 0 82 0;
! #X connect 10 0 82 0;
! #X connect 11 0 82 0;
! #X connect 13 0 82 0;
! #X connect 14 0 82 0;
! #X connect 18 0 82 0;
! #X connect 31 0 79 1;
! #X connect 32 0 79 1;
! #X connect 33 0 79 1;
! #X connect 34 0 79 1;
! #X connect 35 0 79 1;
! #X connect 38 0 82 0;
! #X connect 39 0 82 0;
! #X connect 43 0 82 0;
! #X connect 44 0 82 0;
! #X connect 45 0 82 0;
! #X connect 50 0 38 0;
! #X connect 54 0 79 0;
! #X connect 55 0 54 0;
! #X connect 56 0 57 0;
! #X connect 57 0 79 0;
! #X connect 58 0 80 0;
! #X connect 59 0 58 0;
! #X connect 60 0 61 0;
! #X connect 61 0 80 0;
! #X connect 67 0 81 0;
! #X connect 68 0 69 0;
! #X connect 69 0 81 0;
! #X connect 71 0 80 1;
! #X connect 76 0 69 0;
! #X connect 79 0 16 0;
! #X connect 79 2 0 0;
! #X connect 81 0 98 0;
! #X connect 82 0 15 0;
! #X connect 82 1 51 0;
! #X connect 82 2 12 0;
! #X connect 86 0 81 0;
! #X connect 87 0 86 0;
! #X connect 88 0 86 0;
! #X connect 89 0 81 0;
! #X connect 90 0 81 0;
! #X connect 91 0 81 0;
--- 308,456 ----
#X text 146 586 back/front;
#X obj 69 641 print CCC;
! #N canvas 254 0 927 786 Fileformats 0;
! #X obj 38 27 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 40 29 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 259 56 PDContainer;
! #X text 257 38 different fileformats of;
! #X text 472 116 Please use the XML fileformat if possible \, because
! it's easier to edit in an external editor and the XML parser is much
! more stable!;
! #X text 40 582 s go;
! #X text 40 569 f 2 s wow f 2;
! #X text 40 599 f 23;
! #X text 38 634 (f=float \, s=symbol);
! #X text 37 171 a) single elements: are the containers h_vector \, h_list
! \, h_deque \, h_set \, h_multiset;
! #X text 471 172 b) key-value pairs: are the containers h_map and h_multimap
! ;
! #X text 469 276 2.element: symbol go;
! #X text 476 698 f 2 s wow - f 2;
! #X text 476 712 s go - s not f 34;
! #X text 476 729 f 23 - s op;
! #X text 488 244 key: list 2 wow;
! #X text 470 229 1.element:;
! #X text 488 258 value: float 2;
! #X text 490 291 key: symbol go;
! #X text 490 305 value: list symbol not float 34;
! #X text 39 243 1.element: list 2 wow 2;
! #X text 39 257 2.element: symbol go;
! #X text 38 272 3.element: float 23;
! #X text 37 223 a) example1:;
! #X text 470 212 b) example2:;
! #X text 37 312 a) example1 \, XML:;
! #X text 37 339 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 37 353 <PDContainer type="h_list">;
! #X text 54 366 <element>;
! #X text 70 379 <f> 2 </f>;
! #X text 70 405 <f> 2 </f>;
! #X text 56 418 </element>;
! #X text 70 391 <s> wow </s>;
! #X text 56 431 <element>;
! #X text 57 455 </element>;
! #X text 72 443 <s> go </s>;
! #X text 56 468 <element>;
! #X text 57 492 </element>;
! #X text 72 480 <f> 23 </f>;
! #X text 41 506 </PDContainer>;
! #X text 41 542 a) example1 \, textfile:;
! #X text 39 115 You can save the data of the containers to XML files
! and normal textfiles (see General_Concept).;
! #X text 469 375 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 469 389 <PDContainer type="h_list">;
! #X text 486 402 <element>;
! #X text 519 430 <f> 2 </f>;
! #X text 520 482 <f> 2 </f>;
! #X text 488 506 </element>;
! #X text 519 442 <s> wow </s>;
! #X text 475 634 </PDContainer>;
! #X text 469 348 b) example2 \, XML:;
! #X text 503 415 <key>;
! #X text 504 456 </key>;
! #X text 503 468 <value>;
! #X text 504 494 </value>;
! #X text 487 519 <element>;
! #X text 489 621 </element>;
! #X text 504 532 <key>;
! #X text 505 559 </key>;
! #X text 504 571 <value>;
! #X text 505 609 </value>;
! #X text 520 545 <s> go </s>;
! #X text 521 584 <s> not </s>;
! #X text 521 597 <f> 34 </f>;
! #X text 476 668 b) example2 \, textfile:;
! #X restore 548 115 pd Fileformats;
! #N canvas 174 18 646 402 read_save_possibilities 0;
! #X obj 44 336 outlet;
! #X msg 44 208 save data.dat;
! #X msg 44 244 read data.dat;
! #X msg 44 288 readat data.dat 0;
! #X text 149 208 <- save all the data of the current namespace as textfile
! ;
! #X text 143 244 <- read this textfile to the current namespace and
! insert it at the back (so the size will increase);
! #X text 177 287 <- read the textfile and insert it at the given index
! (so the size won't increase !);
! #X text 166 94 <- read this XML-file to the current namespace and insert
! it at the back (so the size will increase);
! #X text 169 61 <- save all the data of the current namespace as XML-file
! ;
! #X text 196 139 <- read the XML-file and insert it at the given index
! (so the size won't increase !);
! #X msg 44 61 saveXML data.xml;
! #X msg 44 93 readXML data.xml;
! #X msg 44 139 readatXML data.xml 0;
! #X connect 1 0 0 0;
! #X connect 2 0 0 0;
! #X connect 3 0 0 0;
! #X connect 10 0 0 0;
! #X connect 11 0 0 0;
! #X connect 12 0 0 0;
! #X restore 480 456 pd read_save_possibilities;
! #X text 520 480 different possiblities to read;
! #X text 520 494 and write from and to files;
! #X text 519 509 (XML and textfiles);
! #X text 216 844 htttp://grh.mur.at/software/pdcontainer.html;
! #X text 180 827 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)mur.at>
! \, 2005;
! #X connect 8 0 68 0;
! #X connect 9 0 68 0;
! #X connect 10 0 68 0;
! #X connect 12 0 68 0;
! #X connect 13 0 68 0;
! #X connect 17 0 68 0;
! #X connect 27 0 65 1;
! #X connect 28 0 65 1;
! #X connect 29 0 65 1;
! #X connect 30 0 65 1;
! #X connect 31 0 65 1;
! #X connect 34 0 68 0;
! #X connect 35 0 68 0;
! #X connect 36 0 34 0;
! #X connect 40 0 65 0;
! #X connect 41 0 40 0;
! #X connect 42 0 43 0;
! #X connect 43 0 65 0;
! #X connect 44 0 66 0;
! #X connect 45 0 44 0;
! #X connect 46 0 47 0;
! #X connect 47 0 66 0;
! #X connect 53 0 67 0;
! #X connect 54 0 55 0;
! #X connect 55 0 67 0;
! #X connect 57 0 66 1;
! #X connect 62 0 55 0;
! #X connect 65 0 15 0;
! #X connect 65 2 0 0;
! #X connect 67 0 84 0;
! #X connect 68 0 14 0;
! #X connect 68 1 37 0;
! #X connect 68 2 11 0;
! #X connect 72 0 67 0;
! #X connect 73 0 72 0;
! #X connect 74 0 72 0;
! #X connect 75 0 67 0;
! #X connect 76 0 67 0;
! #X connect 77 0 67 0;
! #X connect 86 0 68 0;
Index: help-h_queue.pd
===================================================================
RCS file: /cvsroot/pure-data/externals/PDContainer/help/help-h_queue.pd,v
retrieving revision 1.1.1.1
retrieving revision 1.2
diff -C2 -d -r1.1.1.1 -r1.2
*** help-h_queue.pd 25 Oct 2004 19:02:32 -0000 1.1.1.1
--- help-h_queue.pd 5 May 2005 22:59:34 -0000 1.2
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*** 1,77 ****
! #N canvas 414 45 794 745 10;
#X obj 154 536 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
! #X obj 516 108 cnv 15 204 104 empty empty empty 20 12 0 14 -66577 -66577
! 0;
! #X obj 518 110 cnv 15 200 100 empty empty ReadMe: 65 15 0 14 -262131
! -143491 0;
! #N canvas 205 0 993 742 Container_Explanation 0;
! #X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 16 15 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
-66577 0;
! #X text 254 23 general explation of;
! #X text 254 40 the datastructures;
! #X text 23 655 A vector is a sequence that supports access to all elements
! via index (like an array) and fast insertion and removal of elements
! at the end. The number of elements in a vector may vary dynamically.
! ;
! #X obj 189 627 h_vector;
! #X text 500 654 Fast insertion and removal anywhere \, all the other
! elements move up. But a list provides only sequential access (not via
! index !). A list is a doubly linked list.;
! #X obj 680 628 h_list;
! #X obj 189 773 h_deque;
! #X text 498 801 A queue is a "first in first out" (FIFO) data structure.
That is \, elements are added to the back of the queue (push) and may
be removed from the front (pop).;
! #X obj 679 774 h_queue;
! #X text 22 951 A priority queue is also a "first in first out" (FIFO)
! data structure \, but you can give the elements a priority. So the
! elements with a higher priority are automatically inserted before all
! other elements with a lower priority.;
! #X obj 154 924 h_priority_queue;
! #X text 20 800 A deque (double ended queue \, pronounced "deck") is
! very much like a vector: like vector \, it is a sequence that supports
! access to all elements via index. The main way in which deque differs
! from vector is that fast insertion and removal of elements is possible
! at the beginning _and_ the end.;
! #X text 22 232 Maps represent a mapping from one type (the key type)
! to another type (the value type). You can associate a value with a
! key \, or find the value associated with a key \, very efficiently.
! Map is a Sorted Associative Container and it is also a Unique Associative
! Container \, meaning that no two elements have the same key. (see Multimap
! for more elements with the same key);
! #X obj 188 203 h_map;
! #X text 492 231 Multimaps are just like maps except that a key can
! be associated with several values. Multimap is a Sorted Associative
! Container and also a Multiple Associative Container \, meaning that
! there is no limit on the number of elements with the same key. (see
! also Map);
! #X obj 643 201 h_multimap;
! #X text 24 419 Sets allow you to add and delete elements. Afterwards
! you can look if an element is set. Set is a Sorted Associative Container
! and a Unique Associative Container \, meaning that no two elements
! are the same. (see Multiset to have several copies of the same element)
! ;
! #X obj 187 392 h_set;
! #X text 493 419 Multisets are just like sets \, except that you can
! have several copies of the same element. Multiset is a Sorted Associative
! Container and a Multiple Associative Container \, meaning that two
! or more elements may be identical. (see also Set);
! #X obj 642 391 h_multiset;
! #X text 339 167 :::: ASSOCIATIVE CONTAINERS ::::;
! #X text 393 592 :::: SEQUENCES ::::;
! #X text 289 1099 (look for help at all the objects for more information)
! ;
! #X text 35 87 PDContainer contains the following datastructures:;
! #X text 399 86 map \, nultimap \, set \, multiset \, vector \, list
! \, deque \, queue \, stack \, priority queue;
! #X obj 679 916 h_stack;
! #X text 495 950 Stack is a "last in first out" (LIFO) data structure:
! the element at the top of a stack is the one that was most recently
! added (push). Top outputs the elements from the top without removing
! it \, pop outputs and removes it.;
! #X restore 534 178 pd Container_Explanation;
#N canvas 674 0 511 843 General_Concept 0;
#X text 37 165 This library was made for algorithmic composition and
--- 1,56 ----
! #N canvas 529 37 794 742 10;
#X obj 154 536 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
-1;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
-66577 0;
! #X text 295 36 help file of;
! #X text 40 98 init arg: namespace;
! #X msg 430 438 clear;
! #X msg 430 532 help;
! #X obj 502 587 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X msg 430 335 getnamespace;
! #X msg 430 476 clearall;
! #X obj 430 630 print BBB;
! #X obj 82 579 print AAA;
! #X text 541 360 <- change namespace;
! #X msg 430 359 namespace grix;
! #X text 478 438 <- clear all the data of the;
! #X text 499 453 current namespace;
! #X text 498 478 <- clear all the data in all;
! #X text 519 493 same containers (maybe;
! #X text 521 508 you shouldn't use this);
! #X text 530 337 <- get current namespace;
! #X text 429 283 general operations:;
! #X floatatom 466 606 5 0 0 0 - - -;
! #X floatatom 118 556 5 0 0 0 - - -;
! #X msg 430 391 getsize;
! #X text 493 391 <- puts out the size of the;
! #X text 514 407 stack at the 2nd outlet;
! #X msg 82 358 push \$1;
! #X floatatom 82 332 5 0 0 0 - - -;
! #X symbolatom 130 332 10 0 0 0 - - -;
! #X text 151 436 removing it;
! #X msg 82 462 pop;
! #X text 285 53 ::: h_queue :::;
! #X obj 82 514 h_queue xlt;
! #X obj 430 563 h_queue xlt;
! #X text 39 136 A queue is a "first in first out" (FIFO) data structure.
That is \, elements are added to the back of the queue (push) and may
be removed from the front (pop).;
! #X text 510 606 <- nr of elements;
! #X text 180 536 <- bang if queue is empty;
! #X text 148 359 <- push some data in the queue;
! #X msg 82 407 front;
! #X text 130 408 <- get the data from the front;
! #X text 151 423 of the queue without;
! #X text 138 478 of the queue;
! #X text 117 463 <- removes the data fom the front;
! #X obj 500 24 cnv 15 204 120 empty empty empty 20 12 0 14 -66577 -66577
! 0;
! #X obj 502 26 cnv 15 200 116 empty empty ReadMe: 65 15 0 14 -262131
! -143491 0;
#N canvas 674 0 511 843 General_Concept 0;
#X text 37 165 This library was made for algorithmic composition and
***************
*** 116,121 ****
#X restore 39 503 pd namespace_example;
#X text 161 554 ::: DATATYPES :::;
- #X text 41 579 In the containers you can save all of the build-in datatypes:
- lists \, floats \, and symbol.;
#X text 38 296 As storage datastructures I implemented the C++ STL
(Standard Template Library) Containers in PD. Currently following datastructures
--- 95,98 ----
***************
*** 146,157 ****
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
- #X text 111 659 ( If you use lists as key you can also make a multidimensional
- matrix ! );
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs with lists \, you don't have to update the
! send-receive pairs all the time \, you can use send-receive "namespaces"
\, ...;
#X connect 1 0 0 0;
#X connect 2 0 0 1;
--- 123,134 ----
#X text 229 520 <- get data2;
#X text 345 199 <- add to key data2 a list;
#X text 69 193 <- add to key data1 a list;
#X text 32 32 ::: MAP_EXAMPLE :::;
#X text 34 72 With the datastructure "map" it's for example possible
! to make send-receive pairs \, you don't have to update the send-receive
! pairs all the time (like [value]) \, you can use send-receive "namespaces"
\, ...;
+ #X text 111 659 ( If you use lists as key you can also make a multidimensional
+ matrix ... );
#X connect 1 0 0 0;
#X connect 2 0 0 1;
***************
*** 169,179 ****
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 159 669 ::: SAVE/LOAD :::;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into the specific container. (In
! future I'll also make a XML-fileformat \, which will be easier to edit
! !);
! #N canvas 215 140 716 536 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
--- 146,154 ----
#X connect 15 0 13 0;
#X restore 41 615 pd map_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X text 41 579 In the containers you can save all of the PD build-in
! datatypes: lists \, floats \, and symbol.;
! #N canvas 215 140 716 600 save_load_example 0;
#X text 27 23 ::: SAVE/LOAD EXAMPLE :::;
#X msg 68 229 pushback one word;
***************
*** 185,199 ****
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 368 320 h_list \$0-local;
! #X msg 368 235 save example.dat;
! #X msg 393 284 print;
! #X text 493 236 <- save data as file;
#X obj 140 477 h_set blablu;
! #X msg 140 405 read example.dat;
! #X text 274 405 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
--- 160,181 ----
#X obj 68 324 h_list \$0-local;
#X text 93 168 <- add these three lists to h_list;
! #X obj 333 321 h_list \$0-local;
! #X msg 358 285 print;
#X obj 140 477 h_set blablu;
! #X msg 140 413 read example.dat;
! #X text 274 413 <- read the same data now into a h_set;
#X text 26 67 You can save and load data from and to disk. So you can
also exchange data through different datastructures with the same data-format
(here from a h_list to a h_set).;
#X msg 178 441 print;
+ #X msg 333 207 saveXML example.xml;
+ #X text 457 238 <- save data as file;
+ #X msg 333 238 save example.dat;
+ #X text 477 208 <- save data as XML file;
+ #X msg 140 378 readXML example.xml;
+ #X text 283 379 <- read the same XML data now into a h_set;
+ #X text 22 529 Please use the XML fileformat if possible \, because
+ it's easier to edit in an external editor and the XML parser is much
+ more stable !;
#X connect 1 0 6 0;
#X connect 2 0 6 0;
***************
*** 204,278 ****
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 10 0 8 0;
! #X connect 13 0 12 0;
! #X connect 16 0 12 0;
! #X restore 42 771 pd save_load_example;
! #X text 273 34 general concept of;
! #X text 274 52 PDContainer;
! #X restore 552 147 pd General_Concept;
! #X obj 33 24 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 35 26 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
-66577 0;
! #X text 295 36 help file of;
! #X text 175 698 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)gmx.at>
! \, 2004;
! #X text 40 98 init arg: namespace;
! #X msg 430 438 clear;
! #X msg 430 532 help;
! #X obj 502 587 bng 15 250 50 0 empty empty empty 0 -6 0 8 -262144 -1
! -1;
! #X msg 430 335 getnamespace;
! #X msg 430 476 clearall;
! #X obj 430 630 print BBB;
! #X obj 82 579 print AAA;
! #X text 541 360 <- change namespace;
! #X msg 430 359 namespace grix;
! #X text 478 438 <- clear all the data of the;
! #X text 499 453 current namespace;
! #X text 498 478 <- clear all the data in all;
! #X text 519 493 same containers (maybe;
! #X text 521 508 you shouldn't use this);
! #X text 530 337 <- get current namespace;
! #X text 429 283 general operations:;
! #X floatatom 466 606 5 0 0 0 - - -;
! #X floatatom 118 556 5 0 0 0 - - -;
! #X msg 430 391 getsize;
! #X text 493 391 <- puts out the size of the;
! #X text 514 407 stack at the 2nd outlet;
! #X msg 82 358 push \$1;
! #X floatatom 82 332 5 0 0 0 - - -;
! #X symbolatom 130 332 10 0 0 0 - - -;
! #X text 151 436 removing it;
! #X msg 82 462 pop;
! #X text 285 53 ::: h_queue :::;
! #X obj 82 514 h_queue xlt;
! #X obj 430 563 h_queue xlt;
! #X text 39 136 A queue is a "first in first out" (FIFO) data structure.
That is \, elements are added to the back of the queue (push) and may
be removed from the front (pop).;
! #X text 510 606 <- nr of elements;
! #X text 180 536 <- bang if queue is empty;
! #X text 148 359 <- push some data in the queue;
! #X msg 82 407 front;
! #X text 130 408 <- get the data from the front;
! #X text 151 423 of the queue without;
! #X text 138 478 of the queue;
! #X text 117 463 <- removes the data fom the front;
! #X connect 10 0 38 0;
! #X connect 11 0 38 0;
! #X connect 13 0 38 0;
! #X connect 14 0 38 0;
! #X connect 18 0 38 0;
! #X connect 28 0 38 0;
! #X connect 31 0 37 0;
! #X connect 32 0 31 0;
! #X connect 33 0 31 0;
! #X connect 35 0 37 0;
! #X connect 37 0 16 0;
! #X connect 37 1 27 0;
! #X connect 37 2 0 0;
! #X connect 38 0 15 0;
! #X connect 38 1 26 0;
! #X connect 38 2 12 0;
! #X connect 43 0 37 0;
--- 186,363 ----
#X connect 5 0 4 0;
#X connect 9 0 8 0;
! #X connect 11 0 10 0;
! #X connect 14 0 10 0;
! #X connect 15 0 8 0;
! #X connect 17 0 8 0;
! #X connect 19 0 10 0;
! #X restore 40 797 pd save_load_example;
! #X text 41 696 All the data of all containers can be saved to disk.
! So you can also manually edit the file with an editor (which is sometimes
! much faster) and then load it in PD into a container. You can also
! load data from other containers. Please use the XML fileformat if possible
! \, because it's easier to edit in an external editor and the XML parser
! is much more stable.;
! #X text 164 671 ::: SAVE/LOAD :::;
! #X restore 536 62 pd General_Concept;
! #N canvas 205 0 993 742 Container_Explanation 0;
! #X obj 14 13 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
;
! #X obj 16 15 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
-66577 0;
! #X text 254 23 general explation of;
! #X text 254 40 the datastructures;
! #X text 23 655 A vector is a sequence that supports access to all elements
! via index (like an array) and fast insertion and removal of elements
! at the end. The number of elements in a vector may vary dynamically.
! ;
! #X obj 189 627 h_vector;
! #X text 500 654 Fast insertion and removal anywhere \, all the other
! elements move up. But a list provides only sequential access (not via
! index !). A list is a doubly linked list.;
! #X obj 680 628 h_list;
! #X obj 189 773 h_deque;
! #X text 498 801 A queue is a "first in first out" (FIFO) data structure.
That is \, elements are added to the back of the queue (push) and may
be removed from the front (pop).;
! #X obj 679 774 h_queue;
! #X text 22 951 A priority queue is also a "first in first out" (FIFO)
! data structure \, but you can give the elements a priority. So the
! elements with a higher priority are automatically inserted before all
! other elements with a lower priority.;
! #X obj 154 924 h_priority_queue;
! #X text 20 800 A deque (double ended queue \, pronounced "deck") is
! very much like a vector: like vector \, it is a sequence that supports
! access to all elements via index. The main way in which deque differs
! from vector is that fast insertion and removal of elements is possible
! at the beginning _and_ the end.;
! #X text 22 232 Maps represent a mapping from one type (the key type)
! to another type (the value type). You can associate a value with a
! key \, or find the value associated with a key \, very efficiently.
! Map is a Sorted Associative Container and it is also a Unique Associative
! Container \, meaning that no two elements have the same key. (see Multimap
! for more elements with the same key);
! #X obj 188 203 h_map;
! #X text 492 231 Multimaps are just like maps except that a key can
! be associated with several values. Multimap is a Sorted Associative
! Container and also a Multiple Associative Container \, meaning that
! there is no limit on the number of elements with the same key. (see
! also Map);
! #X obj 643 201 h_multimap;
! #X text 24 419 Sets allow you to add and delete elements. Afterwards
! you can look if an element is set. Set is a Sorted Associative Container
! and a Unique Associative Container \, meaning that no two elements
! are the same. (see Multiset to have several copies of the same element)
! ;
! #X obj 187 392 h_set;
! #X text 493 419 Multisets are just like sets \, except that you can
! have several copies of the same element. Multiset is a Sorted Associative
! Container and a Multiple Associative Container \, meaning that two
! or more elements may be identical. (see also Set);
! #X obj 642 391 h_multiset;
! #X text 339 167 :::: ASSOCIATIVE CONTAINERS ::::;
! #X text 393 592 :::: SEQUENCES ::::;
! #X text 289 1099 (look for help at all the objects for more information)
! ;
! #X text 35 87 PDContainer contains the following datastructures:;
! #X text 399 86 map \, nultimap \, set \, multiset \, vector \, list
! \, deque \, queue \, stack \, priority queue;
! #X obj 679 916 h_stack;
! #X text 495 950 Stack is a "last in first out" (LIFO) data structure:
! the element at the top of a stack is the one that was most recently
! added (push). Top outputs the elements from the top without removing
! it \, pop outputs and removes it.;
! #X restore 518 90 pd Container_Explanation;
! #N canvas 254 0 927 786 Fileformats 0;
! #X obj 38 27 cnv 15 404 54 empty empty empty 22 25 0 18 -1 -66577 0
! ;
! #X obj 40 29 cnv 15 400 50 empty empty PDContainer 22 25 0 18 -228992
! -66577 0;
! #X text 259 56 PDContainer;
! #X text 257 38 different fileformats of;
! #X text 472 116 Please use the XML fileformat if possible \, because
! it's easier to edit in an external editor and the XML parser is much
! more stable!;
! #X text 40 582 s go;
! #X text 40 569 f 2 s wow f 2;
! #X text 40 599 f 23;
! #X text 38 634 (f=float \, s=symbol);
! #X text 37 171 a) single elements: are the containers h_vector \, h_list
! \, h_deque \, h_set \, h_multiset;
! #X text 471 172 b) key-value pairs: are the containers h_map and h_multimap
! ;
! #X text 469 276 2.element: symbol go;
! #X text 476 698 f 2 s wow - f 2;
! #X text 476 712 s go - s not f 34;
! #X text 476 729 f 23 - s op;
! #X text 488 244 key: list 2 wow;
! #X text 470 229 1.element:;
! #X text 488 258 value: float 2;
! #X text 490 291 key: symbol go;
! #X text 490 305 value: list symbol not float 34;
! #X text 39 243 1.element: list 2 wow 2;
! #X text 39 257 2.element: symbol go;
! #X text 38 272 3.element: float 23;
! #X text 37 223 a) example1:;
! #X text 470 212 b) example2:;
! #X text 37 312 a) example1 \, XML:;
! #X text 37 339 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 37 353 <PDContainer type="h_list">;
! #X text 54 366 <element>;
! #X text 70 379 <f> 2 </f>;
! #X text 70 405 <f> 2 </f>;
! #X text 56 418 </element>;
! #X text 70 391 <s> wow </s>;
! #X text 56 431 <element>;
! #X text 57 455 </element>;
! #X text 72 443 <s> go </s>;
! #X text 56 468 <element>;
! #X text 57 492 </element>;
! #X text 72 480 <f> 23 </f>;
! #X text 41 506 </PDContainer>;
! #X text 41 542 a) example1 \, textfile:;
! #X text 39 115 You can save the data of the containers to XML files
! and normal textfiles (see General_Concept).;
! #X text 469 375 <?xml version="1.0" encoding="ISO-8859-1" ?>;
! #X text 469 389 <PDContainer type="h_list">;
! #X text 486 402 <element>;
! #X text 519 430 <f> 2 </f>;
! #X text 520 482 <f> 2 </f>;
! #X text 488 506 </element>;
! #X text 519 442 <s> wow </s>;
! #X text 475 634 </PDContainer>;
! #X text 469 348 b) example2 \, XML:;
! #X text 503 415 <key>;
! #X text 504 456 </key>;
! #X text 503 468 <value>;
! #X text 504 494 </value>;
! #X text 487 519 <element>;
! #X text 489 621 </element>;
! #X text 504 532 <key>;
! #X text 505 559 </key>;
! #X text 504 571 <value>;
! #X text 505 609 </value>;
! #X text 520 545 <s> go </s>;
! #X text 521 584 <s> not </s>;
! #X text 521 597 <f> 34 </f>;
! #X text 476 668 b) example2 \, textfile:;
! #X restore 550 116 pd Fileformats;
! #X text 211 703 htttp://grh.mur.at/software/pdcontainer.html;
! #X text 171 687 =%)!(%= PDContainer \, by Georg Holzmann <grh(a)mur.at>
! \, 2004;
! #X connect 5 0 33 0;
! #X connect 6 0 33 0;
! #X connect 8 0 33 0;
! #X connect 9 0 33 0;
! #X connect 13 0 33 0;
! #X connect 23 0 33 0;
! #X connect 26 0 32 0;
! #X connect 27 0 26 0;
! #X connect 28 0 26 0;
! #X connect 30 0 32 0;
! #X connect 32 0 11 0;
! #X connect 32 1 22 0;
! #X connect 32 2 0 0;
! #X connect 33 0 10 0;
! #X connect 33 1 21 0;
! #X connect 33 2 7 0;
! #X connect 38 0 32 0;