techdragon.nguyen@gmail.com 767983631a
* moved deck saving to end of match. It now only saves when you've actually completed a game. ...
* added additional meta data for decks when saving them back to file.
- decks saved this way now are split into three regions: creatures, spells and lands. It's more for a visual sorting if a
player wanted to look at the deck outside of the game. It does not impact the deck loading negatively at all. It may
increase performance in cases where the deck was previously defined using the canonical names of the cards as the numeric ids
reduce the work done when looking up the cards by name.
* modified ManaCost toString method.
* added toString method for ManaCostHybrid ( possibly make ManaCostHybrid a subclass of ManaCost)
* added additional operator overloading for ManaCost for printing to cover ManaCost when it's a pointer as well as a copy
( TODO: might want to check if making usage of ManaCost as a copy as opposed to a ptr is really necessary in most cases. )
* added alternate version of "trim" to handle trimming temporary strings as returned by things like ostringstream.str().
- This was necessary since the PSP compiler doesn't do the necessary adjustments for those types of calls.
2011-02-04 12:37:44 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 20:18:56 +00:00
2011-01-21 18:01:14 +00:00
2011-02-03 17:10:51 +00:00
2011-02-02 18:22:08 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-21 20:18:56 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-28 06:00:51 +00:00
2011-02-04 12:37:44 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-21 18:01:14 +00:00
2011-01-31 10:04:18 +00:00
2011-01-30 13:06:21 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-28 06:00:51 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-31 08:38:14 +00:00
2011-01-31 10:04:18 +00:00
2011-01-30 13:06:21 +00:00
2011-01-21 18:01:14 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-28 17:34:49 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-21 18:01:14 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-21 18:01:14 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-21 18:01:14 +00:00
2011-01-24 17:58:14 +00:00
2011-01-21 18:01:14 +00:00
2011-02-04 12:37:44 +00:00
2011-02-04 12:37:44 +00:00
2011-01-21 18:01:14 +00:00
2011-02-01 14:24:41 +00:00
2011-01-21 18:01:14 +00:00
2011-02-02 18:22:08 +00:00
2011-02-04 12:37:44 +00:00
2011-02-03 00:04:11 +00:00
2011-01-21 18:01:14 +00:00
2011-01-23 06:03:37 +00:00
2011-01-21 18:01:14 +00:00
2011-01-24 17:58:14 +00:00
2011-01-21 18:01:14 +00:00
2011-02-01 19:11:43 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-08 12:24:39 +00:00
2011-01-21 18:01:14 +00:00
2011-01-28 06:00:51 +00:00
2011-01-21 18:01:14 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-28 06:00:51 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-21 18:01:14 +00:00
2011-01-28 06:00:51 +00:00
2011-02-02 18:22:08 +00:00
2011-02-01 05:58:19 +00:00
2011-01-28 06:00:51 +00:00
2011-01-21 18:01:14 +00:00
2010-02-27 18:49:03 +00:00
2011-01-21 18:01:14 +00:00
2011-02-04 12:37:44 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
2011-01-23 06:59:00 +00:00
2011-01-30 11:14:36 +00:00
2011-01-21 18:01:14 +00:00
2011-01-31 10:24:06 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
Resuming on my threading support work with the card caching mechanism. This change unfortunately touches quite a few files, but I needed to get it out of the way before things got out of hand: one significant hurdle is the assumed lifetime of a JQuad pointer. In a single threaded model, the life time of the pointer is clear: you fetch it into the cache, the cache makes room, you use the pointer immediately. In a multithreaded context however, it's unsafe, as the drawing thread can request a few JQuads, and the cache operating on a separate thread can potentially bounce a JQuad out of the cache before the draw routine is done using it, which ends up in an access violation when you attempt to draw using an invalidated quad pointer. To prevent this, the bulk of this change swaps out the use of naked JQuad* pointers in the code with a JQuadPtr, which is basically a typedef to a boost shared_ptr<JQuad>.
2011-02-01 10:37:21 +00:00
techdragon.nguyen@gmail.com
767983631a