winamp/Src/Plugins/Visualization/vis_milk2/plugin.cpp
2024-09-24 14:54:57 +02:00

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/*
LICENSE
-------
Copyright 2005-2013 Nullsoft, Inc.
All rights reserved.
Redistribution and use in source and binary forms, with or without modification,
are permitted provided that the following conditions are met:
* Redistributions of source code must retain the above copyright notice,
this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright notice,
this list of conditions and the following disclaimer in the documentation
and/or other materials provided with the distribution.
* Neither the name of Nullsoft nor the names of its contributors may be used to
endorse or promote products derived from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR
IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/*
##########################################################################################
NOTE:
The DX9 SDK include & lib files for building MilkDrop 2 are right here, in the subdirectory:
.\dx9sdk_summer04\
The summer 2004 SDK statically links you to d3dx9.lib (5,820 kb). It bloats vis_milk2.dll
a bit, but we (Ben Allison / Ryan Geiss) decided it's worth the stability. We tinkered
with using the February 2005 sdk, which lets you dynamically link to d3dx9_31.dll (?),
but decided to skip it because it would cause too much hassle/confusion among users.
Summer 2004 sdk: http://www.microsoft.com/downloads/details.aspx?FamilyID=fd044a42-9912-42a3-9a9e-d857199f888e&DisplayLang=en
Feb 2005 sdk: http://www.microsoft.com/downloads/details.aspx?FamilyId=77960733-06E9-47BA-914A-844575031B81&displaylang=en
##########################################################################################
*/
/*
Order of Function Calls
-----------------------
The only code that will be called by the plugin framework are the
12 virtual functions in plugin.h. But in what order are they called?
A breakdown follows. A function name in { } means that it is only
called under certain conditions.
Order of function calls...
When the PLUGIN launches
------------------------
INITIALIZATION
OverrideDefaults
MyPreInitialize
MyReadConfig
<< DirectX gets initialized at this point >>
AllocateMyNonDx9Stuff
AllocateMyDX9Stuff
RUNNING
+--> { CleanUpMyDX9Stuff + AllocateMyDX9Stuff } // called together when user resizes window or toggles fullscreen<->windowed.
| MyRenderFn
| MyRenderUI
| { MyWindowProc } // called, between frames, on mouse/keyboard/system events. 100% threadsafe.
+----<< repeat >>
CLEANUP
CleanUpMyDX9Stuff
CleanUpMyNonDx9Stuff
<< DirectX gets uninitialized at this point >>
When the CONFIG PANEL launches
------------------------------
INITIALIZATION
OverrideDefaults
MyPreInitialize
MyReadConfig
<< DirectX gets initialized at this point >>
RUNNING
{ MyConfigTabProc } // called on startup & on keyboard events
CLEANUP
[ MyWriteConfig ] // only called if user clicked 'OK' to exit
<< DirectX gets uninitialized at this point >>
*/
/*
NOTES
-----
To do
-----
-VMS VERSION:
-based on vms 1.05, but the 'fix slow text' option has been added.
that includes m_lpDDSText, CTextManager (m_text), changes to
DrawDarkTranslucentBox, the replacement of all DrawText calls
(now routed through m_text), and adding the 'fix slow text' cb
to the config panel.
-KILLED FEATURES:
-vj mode
-NEW FEATURES FOR 1.04:
-added the following variables for per-frame scripting: (all booleans, except 'gamma')
wave_usedots, wave_thick, wave_additive, wave_brighten
gamma, darken_center, wrap, invert, brighten, darken, solarize
(also, note that echo_zoom, echo_alpha, and echo_orient were already in there,
but weren't covered in the documentation!)
d -fixed: spectrum w/512 samples + 256 separation -> infinite spike
d -reverted dumb changes to aspect ratio stuff
d -reverted wave_y fix; now it's backwards, just like it's always been
(i.e. for wave's y position, 0=bottom and 1=top, which is opposite
to the convention in the rest of milkdrop. decided to keep the
'bug' so presets don't need modified.)
d -fixed: Krash: Inconsistency bug - pressing Escape while in the code windows
for custom waves completely takes you out of the editing menus,
rather than back to the custom wave menu
d -when editing code: fix display of '&' character
d -internal texture size now has a little more bias toward a finer texture,
based on the window size, when set to 'Auto'. (Before, for example,
to reach 1024x1024, the window had to be 768x768 or greater; now, it
only has to be 640x640 (25% of the way there). I adjusted it because
before, at in-between resolutions like 767x767, it looked very grainy;
now it will always look nice and crisp, at any window size, but still
won't cause too much aliasing (due to downsampling for display).
d -fixed: rova:
When creating presets have commented code // in the per_pixel section when cause error in preset.
Example nothing in per_frame and just comments in the per_pixel. EXamples on repuest I have a few.
d -added kill keys:
-CTRL+K kills all running sprites
-CTRL+T kills current song title anim
-CTRL+Y kills current custom message
d -notice to sprite users:
-in milk_img.ini, color key can't be a range anymore; it's
now limited to just a single color. 'colorkey_lo' and
'colorkey_hi' have been replaced with just one setting,
'colorkey'.
d -song titles + custom messages are working again
? -fixed?: crashes on window resize [out of mem]
-Rova: BTW the same bug as krash with the window resizing.
-NOT due to the 'integrate w/winamp' option.
-> might be fixed now (had forgotten to release m_lpDDSText)
<AFTER BETA 3..>
d -added checkbox to config screen to automatically turn SCROLL LOCK on @ startup
d -added alphanumeric seeking to the playlist; while playlist is up,
you can now press A-Z and 0-9 to seek to the next song in the playlist
that starts with that character.
d -<fixed major bug w/illegal mem access on song title launches;
could have been causing crashing madness @ startup on many systems>
d -<fixed bug w/saving 64x48 mesh size>
d -<fixed squashed shapes>
d -<fixed 'invert' variable>
d -<fixed squashed song titles + custom msgs>
? -<might have fixed scroll lock stuff>
? -<might have fixed crashing; could have been due to null ptr for failed creation of song title texture.>
? -<also might have solved any remaining resize or exit bugs by callign SetTexture(NULL)
in DX8 cleanup.>
d -<fixed sizing issues with songtitle font.>
d -<fixed a potentially bogus call to deallocate memory on exit, when it was cleaning up the menus.>
d -<fixed more scroll lock issues>
d -<fixed broken Noughts & Crosses presets; max # of per-frame vars was one too few, after the additions of the new built-in variables.>
d -<hopefully fixed waveforms>
<AFTER BETA 4>
-now when playlist is up, SHIFT+A-Z seeks upward (while lowercase/regular a-z seeks downward).
-custom shapes:
-OH MY GOD
-increased max. # of custom shapes (and waves) from 3 to 4
-added 'texture' option, which allows you to use the last frame as a texture on the shape
-added "tex_ang" and "tex_zoom" params to control the texture coords
-each frame, custom shapes now draw BEFORE regular waveform + custom waves
-added init + per-frame vars: "texture", "additive", "thick", "tex_ang", "tex_zoom"
-fixed valid characters for filenames when importing/exporting custom shapes/waves;
also, it now gives error messages on error in import/export.
-cranked max. meshsize up to 96x72
-Krash, Rova: now the 'q' variables, as modified by the preset per-frame equations, are again
readable by the custom waves + custom shapes. Sorry about that. Should be the end of the
'q' confusion.
-added 'meshx' and 'meshy' [read-only] variables to the preset init, per-frame, and per-pixel
equations (...and inc'd the size of the global variable pool by 2).
-removed t1-t8 vars for Custom Shapes; they were unnecessary (since there's no per-point code there).
-protected custom waves from trying to draw when # of sample minus the separation is < 2
(or 1 if drawing with dots)
-fixed some [minor] preset-blending bugs in the custom wave code
-created a visual map for the flow of values for the q1-q8 and t1-t8 variables:
q_and_t_vars.gif (or something).
-fixed clipping of onscreen text in low-video-memory situations. Now, if there isn't enough
video memory to create an offscreen texture that is at least 75% of the size of the
screen (or to create at least a 256x256 one), it won't bother using one, and will instead draw text directly to the screen.
Otherwise, if the texture is from 75%-99% of the screen size, text will now at least
appear in the correct position on the screen so that it will be visible; this will mean
that the right- and bottom-aligned text will no longer be fully right/bottom-aligned
to the edge of the screen.
-fixed blurry text
-VJ mode is partially restored; the rest will come with beta 7 or the final release. At the time of beta 6, VJ mode still has some glitches in it, but I'm working on them. Most notably, it doesn't resize the text image when you resize the window; that's next on my list.
<AFTER BETA 6:>
-now sprites can burn-in on any frame, not just on the last frame.
set 'burn' to one (in the sprite code) on any frame to make it burn in.
this will break some older sprites, but it's super easy to fix, and
I think it's worth it. =) thanks to papaw00dy for the suggestion!
-fixed the asymptotic-value bug with custom waves using spectral data & having < 512 samples (thanks to telek's example!)
-fixed motion vectors' reversed Y positioning.
-fixed truncation ("...") of long custom messages
-fixed that pesky bug w/the last line of code on a page
-fixed the x-positioning of custom waves & shapes. Before, if you were
saving some coordinates from the preset's per-frame equations (say in q1 and q2)
and then you set "x = q1; y = q2;" in a custom shape's per-frame code
(or in a custom wave's per-point code), the x position wouldn't really be
in the right place, because of aspect ratio multiplications. Before, you had
to actually write "x = (q1-0.5)*0.75 + 0.5; y = q2;" to get it to line up;
now it's fixed, though, and you can just write "x = q1; y = q2;".
-fixed some bugs where the plugin start up, in windowed mode, on the wrong window
(and hence run super slow).
-fixed some bugs w/a munged window frame when the "integrate with winamp" option
was checked.
<AFTER BETA 7:>
-preset ratings are no longer read in all at once; instead, they are scanned in
1 per frame until they're all in. This fixes the long pauses when you switch
to a directory that has many hundreds of presets. If you want to switch
back to the old way (read them all in at once), there is an option for it
in the config panel.
-cranked max. mesh size up to 128x96
-fixed bug in custom shape per-frame code, where t1-t8 vars were not
resetting, at the beginning of each frame, to the values that they had
@ the end of the custom shape init code's execution.
-
-
-
beta 2 thread: http://forums.winamp.com/showthread.php?threadid=142635
beta 3 thread: http://forums.winamp.com/showthread.php?threadid=142760
beta 4 thread: http://forums.winamp.com/showthread.php?threadid=143500
beta 6 thread: http://forums.winamp.com/showthread.php?threadid=143974
(+read about beat det: http://forums.winamp.com/showthread.php?threadid=102205)
@ -code editing: when cursor is on 1st posn. in line, wrong line is highlighted!?
-requests:
-random sprites (...they can just write a prog for this, tho)
-Text-entry mode.
-Like your favorite online game, hit T or something to enter 'text entry' mode. Type a message, then either hit ESC to clear and cancel text-entry mode, or ENTER to display the text on top of the vis. Easier for custom messages than editing the INI file (and probably stopping or minimizing milkdrop to do it) and reloading.
-OR SKIP IT; EASY TO JUST EDIT, RELOAD, AND HIT 00.
-add 'AA' parameter to custom message text file?
-when mem is low, fonts get kicked out -> white boxes
-probably happening b/c ID3DXFont can't create a
temp surface to use to draw text, since all the
video memory is gobbled up.
* -add to installer: q_and_t_vars.gif
* -presets:
1. pick final set
a. OK-do a pass weeding out slow presets (crank mesh size up)
b. OK-do 2nd pass; rate them & delete crappies
c. OK-merge w/set from 1.03; check for dupes; delete more suckies
2. OK-check for cpu-guzzlers
3. OK-check for big ones (>= 8kb)
4. check for ultra-spastic-when-audio-quiet ones
5. update all ratings
6. zip 'em up for safekeeping
* -docs:
-link to milkdrop.co.uk
-preset authoring:
-there are 11 variable pools:
preset:
a) preset init & per-frame code
b) preset per-pixel code
custom wave 1:
c) init & per-frame code
d) per-point code
custom wave 2:
e) init & per-frame code
f) per-point code
custom wave 3:
g) init & per-frame code
h) per-point code
i) custom shape 1: init & per-frame code
j) custom shape 2: init & per-frame code
k) custom shape 3: init & per-frame code
-all of these have predefined variables, the values of many of which
trickle down from init code, to per-frame code, to per-pixel code,
when the same variable is defined for each of these.
-however, variables that you define ("my_var = 5;") do NOT trickle down.
To allow you to pass custom values from, say, your per-frame code
to your per-pixel code, the variables q1 through q8 were created.
For custom waves and custom shapes, t1 through t8 work similarly.
-q1-q8:
-purpose: to allow [custom] values to carry from {the preset init
and/or per-frame equations}, TO: {the per-pixel equations},
{custom waves}, and {custom shapes}.
-are first set in preset init code.
-are reset, at the beginning of each frame, to the values that
they had at the end of the preset init code.
-can be modified in per-frame code...
-changes WILL be passed on to the per-pixel code
-changes WILL pass on to the q1-q8 vars in the custom waves
& custom shapes code
-changes will NOT pass on to the next frame, though;
use your own (custom) variables for that.
-can be modified in per-pixel code...
-changes will pass on to the next *pixel*, but no further
-changes will NOT pass on to the q1-q8 vars in the custom
waves or custom shapes code.
-changes will NOT pass on to the next frame, after the
last pixel, though.
-CUSTOM SHAPES: q1-q8...
-are readable in both the custom shape init & per-frame code
-start with the same values as q1-q8 had at the end of the *preset*
per-frame code, this frame
-can be modified in the init code, but only for a one-time
pass-on to the per-frame code. For all subsequent frames
(after the first), the per-frame code will get the q1-q8
values as described above.
-can be modified in the custom shape per-frame code, but only
as temporary variables; the changes will not pass on anywhere.
-CUSTOM WAVES: q1-q8...
-are readable in the custom wave init, per-frame, and per-point code
-start with the same values as q1-q8 had at the end of the *preset*
per-frame code, this frame
-can be modified in the init code, but only for a one-time
pass-on to the per-frame code. For all subsequent frames
(after the first), the per-frame code will get the q1-q8
values as described above.
-can be modified in the custom wave per-frame code; changes will
pass on to the per-point code, but that's it.
-can be modified in the per-point code, and the modified values
will pass on from point to point, but won't carry beyond that.
-CUSTOM WAVES: t1-t8...
-allow you to generate & save values in the custom wave init code,
that can pass on to the per-frame and, more sigificantly,
per-point code (since it's in a different variable pool).
-...
!-whatever the values of q1-q8 were at the end of the per-frame and per-pixel
code, these are copied to the q1-q8 variables in the custom wave & custom
shape code, for that frame. However, those values are separate.
For example, if you modify q1-q8 in the custom wave #1 code, those changes
will not be visible anywhere else; if you modify q1-q8 in the custom shape
#2 code, same thing. However, if you modify q1-q8 in the per-frame custom
wave code, those modified values WILL be visible to the per-point custom
wave code, and can be modified within it; but after the last point,
the values q1-q8 will be discarded; on the next frame, in custom wave #1
per-frame code, the values will be freshly copied from the values of the
main q1-q8 after the preset's per-frame and per-point code have both been
executed.
-monitor:
-can be read/written in preset init code & preset per-frame code.
-not accessible from per-pixel code.
-if you write it on one frame, then that value persists to the next frame.
-t1-t8:
-
-
-
-regular docs:
-put in the stuff recommended by VMS (vidcap, etc.)
-add to troubleshooting:
1) desktop mode icons not appearing? or
onscreen text looking like colored boxes?
-> try freeing up some video memory. lower your res; drop to 16 bit;
etc. TURN OFF AUTO SONGTITLES.
1) slow desktop/fullscr mode? -> try disabling auto songtitles + desktop icons.
also try reducing texsize to 256x256, since that eats memory that the text surface could claim.
2)
3)
* -presets:
-add new
-fix 3d presets (bring gammas back down to ~1.0)
-check old ones, make sure they're ok
-"Rovastar - Bytes"
-check wave_y
* -document custom waves & shapes
* -slow text is mostly fixed... =(
-desktop icons + playlist both have begin/end around them now, but in desktop mode,
if you bring up playlist or Load menu, fps drops in half; press Esc, and fps doesn't go back up.
-
-
-
-DONE / v1.04:
-updated to VMS 1.05
-[list benefits...]
-
-
-3d mode:
a) SWAPPED DEFAULT L/R LENS COLORS! All images on the web are left=red, right=blue!
b) fixed image display when viewing a 3D preset in a non-4:3 aspect ratio window
c) gamma now works for 3d presets! (note: you might have to update your old presets.
if they were 3D presets, the gamma was ignored and 1.0 was used; now,
if gamma was >1.0 in the old preset, it will probably appear extremely bright.)
d) added SHIFT+F9 and CTRL+C9 to inc/dec stereo separation
e) added default stereo separation to config panel
-cranked up the max. mesh size (was 48x36, now 64x48) and the default mesh size
(was 24x18, now 32x24)
-fixed aspect ratio for final display
-auto-texsize is now computed slightly differently; for vertically or horizontally-stretched
windows, the texsize is now biased more toward the larger dimension (vs. just the
average).
-added anisotropic filtering (for machines that support it)
-fixed bug where the values of many variables in the preset init code were not set prior
to execution of the init code (e.g. time, bass, etc. were all broken!)
-added various preset blend effects. In addition to the old uniform fade, there is
now a directional wipe, radial wipe, and plasma fade.
-FIXED SLOW TEXT for DX8 (at least, on the geforce 4).
Not using DT_RIGHT or DT_BOTTOM was the key.
-why does text kill it in desktop mode?
-text is SLOOW
-to do: add (and use) song title font + tooltip font
-re-test: menus, text, boxes, etc.
-re-test: TIME
-testing:
-make sure sound works perfectly. (had to repro old pre-vms sound analysis!)
-autogamma: currently assumes/requires that GetFrame() resets to 0 on a mode change
(i.e. windowed -> fullscreen)... is that the case?
-restore motion vectors
-
-
-restore lost surfaces
-test bRedraw flag (desktop mode/paused)
-search for //? in milkdropfs.cpp and fix things
problem: no good soln for VJ mode
problem: D3DX won't give you solid background for your text.
soln: (for later-) create wrapper fn that draws w/solid bkg.
SOLN?: use D3DX to draw all text (plugin.cpp stuff AND playlist);
then, for VJ mode, create a 2nd DxContext
w/its own window + windowproc + fonts. (YUCK)
1) config panel: test, and add WM_HELP's (copy from tooltips)
2) keyboard input: test; and...
-need to reset UI_MODE when playlist is turned on, and
-need to reset m_show_playlist when UI_MODE is changed. (?)
-(otherwise they can both show @ same time and will fight
for keys and draw over each other)
3) comment out most of D3D stuff in milkdropfs.cpp, and then
get it running w/o any milkdrop, but with text, etc.
4) sound
Issues / To Do Later
--------------------
1) sprites: color keying stuff probably won't work any more...
2) scroll lock: pull code from Monkey
3) m_nGridY should not always be m_nGridX*3/4!
4) get solid backgrounds for menus, waitstring code, etc.
(make a wrapper function!)
99) at end: update help screen
Things that will be different
-----------------------------
1) font sizes are no longer relative to size of window; they are absolute.
2) 'don't clear screen at startup' option is gone
3) 'always on top' option is gone
4) text will not be black-on-white when an inverted-color preset is showing
-VJ mode:
-notes
1. (remember window size/pos, and save it from session to session? nah.)
2. (kiv: scroll lock)
3. (VJ window + desktop mode:)
-ok w/o VJ mode
-w/VJ mode, regardless of 'fix slow text' option, probs w/focus;
click on vj window, and plugin window flashes to top of Z order!
-goes away if you comment out 1st call to PushWindowToJustBeforeDesktop()...
-when you disable PushWindowToJustBeforeDesktop:
-..and click on EITHER window, milkdrop jumps in front of the taskbar.
-..and click on a non-MD window, nothing happens.
d-FIXED somehow, magically, while fixing bugs w/true fullscreen mode!
4. (VJ window + true fullscreen mode:)
d-make sure VJ window gets placed on the right monitor, at startup,
and respects taskbar posn.
d-bug - start in windowed mode, then dbl-clk to go [true] fullscreen
on 2nd monitor, all with VJ mode on, and it excepts somewhere
in m_text.DrawNow() in a call to DrawPrimitive()!
FIXED - had to check m_vjd3d8_device->TestCooperativeLevel
each frame, and destroy/reinit if device needed reset.
d-can't resize VJ window when grfx window is running true fullscreen!
-FIXED, by dropping the Sleep(30)/return when m_lost_focus
was true, and by not consuming WM_NCACTIVATE in true fullscreen
mode when m_hTextWnd was present, since DX8 doesn't do its
auto-minimize thing in that case.
*/
#include "api__vis_milk2.h"
#include "plugin.h"
#include "utility.h"
#include "support.h"
#include "resource.h"
#include "defines.h"
#include "shell_defines.h"
#include <assert.h>
#include <locale.h>
#include <process.h> // for beginthread, etc.
#include <shellapi.h>
#include <strsafe.h>
#include "../nu/AutoCharFn.h"
#define FRAND ((warand() % 7381)/7380.0f)
void NSEEL_HOSTSTUB_EnterMutex(){}
void NSEEL_HOSTSTUB_LeaveMutex(){}
// note: these must match layouts in support.h!!
D3DVERTEXELEMENT9 g_MyVertDecl[] =
{
{ 0, 0, D3DDECLTYPE_FLOAT3, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_POSITION, 0 },
{ 0, 12, D3DDECLTYPE_D3DCOLOR, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_COLOR, 0 },
{ 0, 16, D3DDECLTYPE_FLOAT4, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_TEXCOORD, 0 },
{ 0, 32, D3DDECLTYPE_FLOAT2, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_TEXCOORD, 1 },
D3DDECL_END()
};
D3DVERTEXELEMENT9 g_WfVertDecl[] =
{
{ 0, 0, D3DDECLTYPE_FLOAT3, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_POSITION, 0 },
{ 0, 12, D3DDECLTYPE_D3DCOLOR, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_COLOR, 0 },
D3DDECL_END()
};
D3DVERTEXELEMENT9 g_SpriteVertDecl[] =
{
// matches D3DFVF_XYZ | D3DFVF_DIFFUSE | D3DFVF_TEX1
{ 0, 0, D3DDECLTYPE_FLOAT3, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_POSITION, 0 },
{ 0, 12, D3DDECLTYPE_D3DCOLOR, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_COLOR, 0 },
{ 0, 16, D3DDECLTYPE_FLOAT2, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_TEXCOORD, 0 },
D3DDECL_END()
};
//extern CSoundData* pg_sound; // declared in main.cpp
extern CPlugin g_plugin; // declared in main.cpp (note: was 'pg')
// from support.cpp:
extern bool g_bDebugOutput;
extern bool g_bDumpFileCleared;
// for __UpdatePresetList:
volatile HANDLE g_hThread; // only r/w from our MAIN thread
volatile bool g_bThreadAlive; // set true by MAIN thread, and set false upon exit from 2nd thread.
volatile int g_bThreadShouldQuit; // set by MAIN thread to flag 2nd thread that it wants it to exit.
static CRITICAL_SECTION g_cs;
#define IsAlphabetChar(x) ((x >= 'a' && x <= 'z') || (x >= 'A' && x <= 'Z'))
#define IsAlphanumericChar(x) ((x >= 'a' && x <= 'z') || (x >= 'A' && x <= 'Z') || (x >= '0' && x <= '9') || x == '.')
#define IsNumericChar(x) (x >= '0' && x <= '9')
const unsigned char LC2UC[256] = {
0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,
17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,255,
33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,
49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,
97,98,99,100,101,102,103,104,105,106,107,108,109,110,111,112,
113,114,115,116,117,118,119,120,121,122,91,92,93,94,95,96,
97,98,99,100,101,102,103,104,105,106,107,108,109,110,111,112,
113,114,115,116,117,118,119,120,121,122,123,124,125,126,127,128,
129,130,131,132,133,134,135,136,137,138,139,140,141,142,143,144,
145,146,147,148,149,150,151,152,153,154,155,156,157,158,159,160,
161,162,163,164,165,166,167,168,169,170,171,172,173,174,175,176,
177,178,179,180,181,182,183,184,185,186,187,188,189,190,191,192,
193,194,195,196,197,198,199,200,201,202,203,204,205,206,207,208,
209,210,211,212,213,214,215,216,217,218,219,220,221,222,223,224,
225,226,227,228,229,230,231,232,233,234,235,236,237,238,239,240,
241,242,243,244,245,246,247,248,249,250,251,252,253,254,255,
};
/*
* Copies the given string TO the clipboard.
*/
void copyStringToClipboardA(const char * source)
{
int ok = OpenClipboard(NULL);
if (!ok)
return;
HGLOBAL clipbuffer;
EmptyClipboard();
clipbuffer = GlobalAlloc(GMEM_DDESHARE, (lstrlenA(source)+1)*sizeof(char));
char* buffer = (char*)GlobalLock(clipbuffer);
lstrcpyA(buffer, source);
GlobalUnlock(clipbuffer);
SetClipboardData(CF_TEXT, clipbuffer);
CloseClipboard();
}
void copyStringToClipboardW(const wchar_t * source)
{
int ok = OpenClipboard(NULL);
if (!ok)
return;
HGLOBAL clipbuffer;
EmptyClipboard();
clipbuffer = GlobalAlloc(GMEM_DDESHARE, (lstrlenW(source)+1)*sizeof(wchar_t));
wchar_t* buffer = (wchar_t*)GlobalLock(clipbuffer);
lstrcpyW(buffer, source);
GlobalUnlock(clipbuffer);
SetClipboardData(CF_UNICODETEXT, clipbuffer);
CloseClipboard();
}
/*
* Suppose there is a string on the clipboard.
* This function copies it FROM there.
*/
char * getStringFromClipboardA()
{
int ok = OpenClipboard(NULL);
if (!ok)
return NULL;
HANDLE hData = GetClipboardData(CF_TEXT);
char* buffer = (char*)GlobalLock(hData);
GlobalUnlock(hData);
CloseClipboard();
return buffer;
}
wchar_t * getStringFromClipboardW()
{
int ok = OpenClipboard(NULL);
if (!ok)
return NULL;
HANDLE hData = GetClipboardData(CF_UNICODETEXT);
wchar_t* buffer = (wchar_t*)GlobalLock(hData);
GlobalUnlock(hData);
CloseClipboard();
return buffer;
}
void ConvertCRsToLFCA(const char* src, char* dst)
{
while (*src)
{
char ch = *src;
if (*src==13 && *(src+1)==10)
{
*dst++ = LINEFEED_CONTROL_CHAR;
src += 2;
}
else
{
*dst++ = *src++;
}
}
*dst = 0;
}
void ConvertCRsToLFCW(const wchar_t* src, wchar_t* dst)
{
while (*src)
{
wchar_t ch = *src;
if (*src==13 && *(src+1)==10)
{
*dst++ = LINEFEED_CONTROL_CHAR;
src += 2;
}
else
{
*dst++ = *src++;
}
}
*dst = 0;
}
void ConvertLFCToCRsA(const char* src, char* dst)
{
while (*src)
{
char ch = *src;
if (*src==LINEFEED_CONTROL_CHAR)
{
*dst++ = 13;
*dst++ = 10;
src++;
}
else
{
*dst++ = *src++;
}
}
*dst = 0;
}
void ConvertLFCToCRsW(const wchar_t* src, wchar_t* dst)
{
while (*src)
{
wchar_t ch = *src;
if (*src==LINEFEED_CONTROL_CHAR)
{
*dst++ = 13;
*dst++ = 10;
src++;
}
else
{
*dst++ = *src++;
}
}
*dst = 0;
}
int mystrcmpiW(const wchar_t *s1, const wchar_t *s2)
{
// returns 1 if s1 comes before s2
// returns 0 if equal
// returns -1 if s1 comes after s2
// treats all characters/symbols by their ASCII values,
// except that it DOES ignore case.
int i=0;
while (LC2UC[s1[i]] == LC2UC[s2[i]] && s1[i] != 0)
i++;
//FIX THIS!
if (s1[i]==0 && s2[i]==0)
return 0;
else if (s1[i]==0)
return -1;
else if (s2[i]==0)
return 1;
else
return (LC2UC[s1[i]] < LC2UC[s2[i]]) ? -1 : 1;
}
bool ReadFileToString(const wchar_t* szBaseFilename, char* szDestText, int nMaxBytes, bool bConvertLFsToSpecialChar)
{
wchar_t szFile[MAX_PATH];
swprintf(szFile, L"%s%s", g_plugin.m_szMilkdrop2Path, szBaseFilename);
// read in all chars. Replace char combos: { 13; 13+10; 10 } with LINEFEED_CONTROL_CHAR, if bConvertLFsToSpecialChar is true.
FILE* f = _wfopen(szFile, L"rb");
if (!f)
{
wchar_t buf[1024], title[64];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_UNABLE_TO_READ_DATA_FILE_X), szFile);
g_plugin.dumpmsg(buf);
MessageBoxW(NULL, buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
int len = 0;
int x;
char prev_ch = 0;
while ( (x = fgetc(f)) >= 0 && len < nMaxBytes-4 )
{
char orig_ch = (char)x;
char ch = orig_ch;
bool bSkipChar = false;
if (bConvertLFsToSpecialChar)
{
if (ch==10)
{
if (prev_ch==13)
bSkipChar = true;
else
ch = LINEFEED_CONTROL_CHAR;
}
else if (ch==13)
ch = LINEFEED_CONTROL_CHAR;
}
if (!bSkipChar)
szDestText[len++] = ch;
prev_ch = orig_ch;
}
szDestText[len] = 0;
szDestText[len++] = ' '; // make sure there is some whitespace after
fclose(f);
return true;
}
// these callback functions are called by menu.cpp whenever the user finishes editing an eval_ expression.
void OnUserEditedPerFrame(LPARAM param1, LPARAM param2)
{
g_plugin.m_pState->RecompileExpressions(RECOMPILE_PRESET_CODE, 0);
}
void OnUserEditedPerPixel(LPARAM param1, LPARAM param2)
{
g_plugin.m_pState->RecompileExpressions(RECOMPILE_PRESET_CODE, 0);
}
void OnUserEditedPresetInit(LPARAM param1, LPARAM param2)
{
g_plugin.m_pState->RecompileExpressions(RECOMPILE_PRESET_CODE, 1);
}
void OnUserEditedWavecode(LPARAM param1, LPARAM param2)
{
g_plugin.m_pState->RecompileExpressions(RECOMPILE_WAVE_CODE, 0);
}
void OnUserEditedWavecodeInit(LPARAM param1, LPARAM param2)
{
g_plugin.m_pState->RecompileExpressions(RECOMPILE_WAVE_CODE, 1);
}
void OnUserEditedShapecode(LPARAM param1, LPARAM param2)
{
g_plugin.m_pState->RecompileExpressions(RECOMPILE_SHAPE_CODE, 0);
}
void OnUserEditedShapecodeInit(LPARAM param1, LPARAM param2)
{
g_plugin.m_pState->RecompileExpressions(RECOMPILE_SHAPE_CODE, 1);
}
void OnUserEditedWarpShaders(LPARAM param1, LPARAM param2)
{
g_plugin.m_bNeedRescanTexturesDir = true;
g_plugin.ClearErrors(ERR_PRESET);
if (g_plugin.m_nMaxPSVersion == 0)
return;
if (!g_plugin.RecompilePShader(g_plugin.m_pState->m_szWarpShadersText, &g_plugin.m_shaders.warp, SHADER_WARP, false, g_plugin.m_pState->m_nWarpPSVersion))
{
// switch to fallback
g_plugin.m_fallbackShaders_ps.warp.ptr->AddRef();
g_plugin.m_fallbackShaders_ps.warp.CT->AddRef();
g_plugin.m_shaders.warp = g_plugin.m_fallbackShaders_ps.warp;
}
}
void OnUserEditedCompShaders(LPARAM param1, LPARAM param2)
{
g_plugin.m_bNeedRescanTexturesDir = true;
g_plugin.ClearErrors(ERR_PRESET);
if (g_plugin.m_nMaxPSVersion == 0)
return;
if (!g_plugin.RecompilePShader(g_plugin.m_pState->m_szCompShadersText, &g_plugin.m_shaders.comp, SHADER_COMP, false, g_plugin.m_pState->m_nCompPSVersion))
{
// switch to fallback
g_plugin.m_fallbackShaders_ps.comp.ptr->AddRef();
g_plugin.m_fallbackShaders_ps.comp.CT->AddRef();
g_plugin.m_shaders.comp = g_plugin.m_fallbackShaders_ps.comp;
}
}
// Modify the help screen text here.
// Watch the # of lines, though; if there are too many, they will get cut off;
// and watch the length of the lines, since there is no wordwrap.
// A good guideline: your entire help screen should be visible when fullscreen
// @ 640x480 and using the default help screen font.
wchar_t* g_szHelp = 0;
int g_szHelp_W = 0;
// this is for integrating modern skins (with their Random button)
// and having it match our Scroll Lock (preset lock) state...
#define IPC_CB_VISRANDOM 628
//----------------------------------------------------------------------
void CPlugin::OverrideDefaults()
{
// Here, you have the option of overriding the "default defaults"
// for the stuff on tab 1 of the config panel, replacing them
// with custom defaults for your plugin.
// To override any of the defaults, just uncomment the line
// and change the value.
// DO NOT modify these values from any function but this one!
// This example plugin only changes the default width/height
// for fullscreen mode; the "default defaults" are just
// 640 x 480.
// If your plugin is very dependent on smooth animation and you
// wanted it plugin to have the 'save cpu' option OFF by default,
// for example, you could set 'm_save_cpu' to 0 here.
// m_start_fullscreen = 0; // 0 or 1
// m_start_desktop = 0; // 0 or 1
// m_fake_fullscreen_mode = 0; // 0 or 1
// m_max_fps_fs = 30; // 1-120, or 0 for 'unlimited'
// m_max_fps_dm = 30; // 1-120, or 0 for 'unlimited'
// m_max_fps_w = 30; // 1-120, or 0 for 'unlimited'
// m_show_press_f1_msg = 1; // 0 or 1
m_allow_page_tearing_w = 0; // 0 or 1
// m_allow_page_tearing_fs = 0; // 0 or 1
// m_allow_page_tearing_dm = 1; // 0 or 1
// m_minimize_winamp = 1; // 0 or 1
// m_desktop_textlabel_boxes = 1; // 0 or 1
// m_save_cpu = 0; // 0 or 1
// lstrcpy(m_fontinfo[0].szFace, "Trebuchet MS"); // system font
// m_fontinfo[0].nSize = 18;
// m_fontinfo[0].bBold = 0;
// m_fontinfo[0].bItalic = 0;
// lstrcpy(m_fontinfo[1].szFace, "Times New Roman"); // decorative font
// m_fontinfo[1].nSize = 24;
// m_fontinfo[1].bBold = 0;
// m_fontinfo[1].bItalic = 1;
// Don't override default FS mode here; shell is now smart and sets it to match
// the current desktop display mode, by default.
//m_disp_mode_fs.Width = 1024; // normally 640
//m_disp_mode_fs.Height = 768; // normally 480
// use either D3DFMT_X8R8G8B8 or D3DFMT_R5G6B5.
// The former will match to any 32-bit color format available,
// and the latter will match to any 16-bit color available,
// if that exact format can't be found.
//m_disp_mode_fs.Format = D3DFMT_UNKNOWN; //<- this tells config panel & visualizer to use current display mode as a default!! //D3DFMT_X8R8G8B8;
// m_disp_mode_fs.RefreshRate = 60;
}
//----------------------------------------------------------------------
void CPlugin::MyPreInitialize()
{
// Initialize EVERY data member you've added to CPlugin here;
// these will be the default values.
// If you want to initialize any of your variables with random values
// (using rand()), be sure to seed the random number generator first!
// (If you want to change the default values for settings that are part of
// the plugin shell (framework), do so from OverrideDefaults() above.)
// seed the system's random number generator w/the current system time:
//srand((unsigned)time(NULL)); -don't - let winamp do it
// attempt to load a unicode F1 help message otherwise revert to the ansi version
g_szHelp = (wchar_t*)GetTextResource(IDR_TEXT2,1);
if(!g_szHelp) g_szHelp = (wchar_t*)GetTextResource(IDR_TEXT1,0);
else g_szHelp_W = 1;
// CONFIG PANEL SETTINGS THAT WE'VE ADDED (TAB #2)
m_bFirstRun = true;
m_bInitialPresetSelected = false;
m_fBlendTimeUser = 1.7f;
m_fBlendTimeAuto = 2.7f;
m_fTimeBetweenPresets = 16.0f;
m_fTimeBetweenPresetsRand = 10.0f;
m_bSequentialPresetOrder = false;
m_bHardCutsDisabled = true;
m_fHardCutLoudnessThresh = 2.5f;
m_fHardCutHalflife = 60.0f;
//m_nWidth = 1024;
//m_nHeight = 768;
//m_nDispBits = 16;
m_nCanvasStretch = 0;
m_nTexSizeX = -1; // -1 means "auto"
m_nTexSizeY = -1; // -1 means "auto"
m_nTexBitsPerCh = 8;
m_nGridX = 48;//32;
m_nGridY = 36;//24;
m_bShowPressF1ForHelp = true;
//lstrcpy(m_szMonitorName, "[don't use multimon]");
m_bShowMenuToolTips = true; // NOTE: THIS IS CURRENTLY HARDWIRED TO TRUE - NO OPTION TO CHANGE
m_n16BitGamma = 2;
m_bAutoGamma = true;
//m_nFpsLimit = -1;
m_bEnableRating = true;
//m_bInstaScan = false;
m_bSongTitleAnims = true;
m_fSongTitleAnimDuration = 1.7f;
m_fTimeBetweenRandomSongTitles = -1.0f;
m_fTimeBetweenRandomCustomMsgs = -1.0f;
m_nSongTitlesSpawned = 0;
m_nCustMsgsSpawned = 0;
m_nFramesSinceResize = 0;
//m_bAlways3D = false;
//m_fStereoSep = 1.0f;
//m_bAlwaysOnTop = false;
//m_bFixSlowText = true;
//m_bWarningsDisabled = false;
m_bWarningsDisabled2 = true;
//m_bAnisotropicFiltering = true;
m_bPresetLockOnAtStartup = false;
m_bPreventScollLockHandling = false;
m_nMaxPSVersion_ConfigPanel = -1; // -1 = auto, 0 = disable shaders, 2 = ps_2_0, 3 = ps_3_0
m_nMaxPSVersion_DX9 = -1; // 0 = no shader support, 2 = ps_2_0, 3 = ps_3_0
m_nMaxPSVersion = -1; // this one will be the ~min of the other two. 0/2/3.
m_nMaxImages = 32;
m_nMaxBytes = 16000000;
#ifdef _DEBUG
m_dwShaderFlags = D3DXSHADER_DEBUG|(1<<16);
#else
m_dwShaderFlags = (1<<16);//D3DXSHADER_SKIPOPTIMIZATION|D3DXSHADER_NO_PRESHADER;
#endif
//m_pFragmentLinker = NULL;
//m_pCompiledFragments = NULL;
m_pShaderCompileErrors = NULL;
//m_vs_warp = NULL;
//m_ps_warp = NULL;
//m_vs_comp = NULL;
//m_ps_comp = NULL;
ZeroMemory(&m_shaders, sizeof(PShaderSet));
ZeroMemory(&m_OldShaders, sizeof(PShaderSet));
ZeroMemory(&m_NewShaders, sizeof(PShaderSet));
ZeroMemory(&m_fallbackShaders_vs, sizeof(VShaderSet));
ZeroMemory(&m_fallbackShaders_ps, sizeof(PShaderSet));
ZeroMemory(m_BlurShaders, sizeof(m_BlurShaders));
m_bWarpShaderLock = false;
m_bCompShaderLock = false;
m_bNeedRescanTexturesDir = true;
// vertex declarations:
m_pSpriteVertDecl = NULL;
m_pWfVertDecl = NULL;
m_pMyVertDecl = NULL;
m_gdi_title_font_doublesize = NULL;
m_d3dx_title_font_doublesize = NULL;
// RUNTIME SETTINGS THAT WE'VE ADDED
m_prev_time = GetTime() - 0.0333f; // note: this will be updated each frame, at bottom of MyRenderFn.
m_bTexSizeWasAutoPow2 = false;
m_bTexSizeWasAutoExact = false;
//m_bPresetLockedByUser = false; NOW SET IN DERIVED SETTINGS
m_bPresetLockedByCode = false;
m_fStartTime = 0.0f;
m_fPresetStartTime = 0.0f;
m_fNextPresetTime = -1.0f; // negative value means no time set (...it will be auto-set on first call to UpdateTime)
m_nLoadingPreset = 0;
m_nPresetsLoadedTotal = 0;
m_fSnapPoint = 0.5f;
m_pState = &m_state_DO_NOT_USE[0];
m_pOldState = &m_state_DO_NOT_USE[1];
m_pNewState = &m_state_DO_NOT_USE[2];
m_UI_mode = UI_REGULAR;
m_bShowShaderHelp = false;
m_nMashSlot = 0; //0..MASH_SLOTS-1
for (int mash=0; mash<MASH_SLOTS; mash++)
m_nLastMashChangeFrame[mash] = 0;
//m_nTrackPlaying = 0;
//m_nSongPosMS = 0;
//m_nSongLenMS = 0;
m_bUserPagedUp = false;
m_bUserPagedDown = false;
m_fMotionVectorsTempDx = 0.0f;
m_fMotionVectorsTempDy = 0.0f;
m_waitstring.bActive = false;
m_waitstring.bOvertypeMode = false;
m_waitstring.szClipboard[0] = 0;
m_nPresets = 0;
m_nDirs = 0;
m_nPresetListCurPos = 0;
m_nCurrentPreset = -1;
m_szCurrentPresetFile[0] = 0;
m_szLoadingPreset[0] = 0;
//m_szPresetDir[0] = 0; // will be set @ end of this function
m_bPresetListReady = false;
m_szUpdatePresetMask[0] = 0;
//m_nRatingReadProgress = -1;
myfft.Init(576, MY_FFT_SAMPLES, -1);
memset(&mysound, 0, sizeof(mysound));
int i = 0;
for (i=0; i<PRESET_HIST_LEN; i++)
m_presetHistory[i] = L"";
m_presetHistoryPos = 0;
m_presetHistoryBackFence = 0;
m_presetHistoryFwdFence = 0;
//m_nTextHeightPixels = -1;
//m_nTextHeightPixels_Fancy = -1;
m_bShowFPS = false;
m_bShowRating = false;
m_bShowPresetInfo = false;
m_bShowDebugInfo = false;
m_bShowSongTitle = false;
m_bShowSongTime = false;
m_bShowSongLen = false;
m_fShowRatingUntilThisTime = -1.0f;
ClearErrors();
m_szDebugMessage[0] = 0;
m_szSongTitle[0] = 0;
m_szSongTitlePrev[0] = 0;
m_lpVS[0] = NULL;
m_lpVS[1] = NULL;
#if (NUM_BLUR_TEX>0)
for (i=0; i<NUM_BLUR_TEX; i++)
m_lpBlur[i] = NULL;
#endif
m_lpDDSTitle = NULL;
m_nTitleTexSizeX = 0;
m_nTitleTexSizeY = 0;
m_verts = NULL;
m_verts_temp = NULL;
m_vertinfo = NULL;
m_indices_list = NULL;
m_indices_strip = NULL;
m_bMMX = false;
m_bHasFocus = true;
m_bHadFocus = false;
m_bOrigScrollLockState = GetKeyState(VK_SCROLL) & 1;
// m_bMilkdropScrollLockState is derived at end of MyReadConfig()
m_nNumericInputMode = NUMERIC_INPUT_MODE_CUST_MSG;
m_nNumericInputNum = 0;
m_nNumericInputDigits = 0;
//td_custom_msg_font m_CustomMessageFont[MAX_CUSTOM_MESSAGE_FONTS];
//td_custom_msg m_CustomMessage[MAX_CUSTOM_MESSAGES];
//texmgr m_texmgr; // for user sprites
m_supertext.bRedrawSuperText = false;
m_supertext.fStartTime = -1.0f;
// --------------------other init--------------------
g_bDebugOutput = false;
g_bDumpFileCleared = false;
swprintf(m_szMilkdrop2Path, L"%s%s", GetPluginsDirPath(), SUBDIR);
swprintf(m_szPresetDir, L"%spresets\\", m_szMilkdrop2Path );
// note that the config dir can be under Program Files or Application Data!!
wchar_t szConfigDir[MAX_PATH] = {0};
lstrcpyW(szConfigDir, GetConfigIniFile());
wchar_t* p = wcsrchr(szConfigDir, L'\\');
if (p) *(p+1) = 0;
swprintf(m_szMsgIniFile, L"%s%s", szConfigDir, MSG_INIFILE );
swprintf(m_szImgIniFile, L"%s%s", szConfigDir, IMG_INIFILE );
}
//----------------------------------------------------------------------
void CPlugin::MyReadConfig()
{
// Read the user's settings from the .INI file.
// If you've added any controls to the config panel, read their value in
// from the .INI file here.
// use this function declared in to read a value of this type:
// ----------------- ----------- ----------------------------
// GetPrivateProfileInt Win32 API int
// GetPrivateProfileBool utility.h bool
// GetPrivateProfileBOOL utility.h BOOL
// GetPrivateProfileFloat utility.h float
// GetPrivateProfileString Win32 API string
//ex: m_fog_enabled = GetPrivateProfileInt("settings","fog_enabled" ,m_fog_enabled ,GetConfigIniFile());
int n=0;
wchar_t *pIni = GetConfigIniFile();
m_bFirstRun = !GetPrivateProfileBoolW(L"settings",L"bConfigured" ,false,pIni);
m_bEnableRating = GetPrivateProfileBoolW(L"settings",L"bEnableRating",m_bEnableRating,pIni);
//m_bInstaScan = GetPrivateProfileBool("settings","bInstaScan",m_bInstaScan,pIni);
m_bHardCutsDisabled = GetPrivateProfileBoolW(L"settings",L"bHardCutsDisabled",m_bHardCutsDisabled,pIni);
g_bDebugOutput = GetPrivateProfileBoolW(L"settings",L"bDebugOutput",g_bDebugOutput,pIni);
//m_bShowSongInfo = GetPrivateProfileBool("settings","bShowSongInfo",m_bShowSongInfo,pIni);
//m_bShowPresetInfo=GetPrivateProfileBool("settings","bShowPresetInfo",m_bShowPresetInfo,pIni);
m_bShowPressF1ForHelp = GetPrivateProfileBoolW(L"settings",L"bShowPressF1ForHelp",m_bShowPressF1ForHelp,pIni);
//m_bShowMenuToolTips = GetPrivateProfileBool("settings","bShowMenuToolTips",m_bShowMenuToolTips,pIni);
m_bSongTitleAnims = GetPrivateProfileBoolW(L"settings",L"bSongTitleAnims",m_bSongTitleAnims,pIni);
m_bShowFPS = GetPrivateProfileBoolW(L"settings",L"bShowFPS", m_bShowFPS ,pIni);
m_bShowRating = GetPrivateProfileBoolW(L"settings",L"bShowRating", m_bShowRating ,pIni);
m_bShowPresetInfo = GetPrivateProfileBoolW(L"settings",L"bShowPresetInfo",m_bShowPresetInfo ,pIni);
//m_bShowDebugInfo = GetPrivateProfileBool("settings","bShowDebugInfo", m_bShowDebugInfo ,pIni);
m_bShowSongTitle = GetPrivateProfileBoolW(L"settings",L"bShowSongTitle", m_bShowSongTitle ,pIni);
m_bShowSongTime = GetPrivateProfileBoolW(L"settings",L"bShowSongTime", m_bShowSongTime ,pIni);
m_bShowSongLen = GetPrivateProfileBoolW(L"settings",L"bShowSongLen", m_bShowSongLen ,pIni);
//m_bFixPinkBug = GetPrivateProfileBool("settings","bFixPinkBug",m_bFixPinkBug,pIni);
int nTemp = GetPrivateProfileBoolW(L"settings",L"bFixPinkBug",-1,pIni);
if (nTemp == 0)
m_n16BitGamma = 0;
else if (nTemp == 1)
m_n16BitGamma = 2;
m_n16BitGamma = GetPrivateProfileIntW(L"settings",L"n16BitGamma",m_n16BitGamma,pIni);
m_bAutoGamma = GetPrivateProfileBoolW(L"settings",L"bAutoGamma",m_bAutoGamma,pIni);
//m_bAlways3D = GetPrivateProfileBool("settings","bAlways3D",m_bAlways3D,pIni);
//m_fStereoSep = GetPrivateProfileFloat("settings","fStereoSep",m_fStereoSep,pIni);
//m_bFixSlowText = GetPrivateProfileBool("settings","bFixSlowText",m_bFixSlowText,pIni);
//m_bAlwaysOnTop = GetPrivateProfileBool("settings","bAlwaysOnTop",m_bAlwaysOnTop,pIni);
//m_bWarningsDisabled = GetPrivateProfileBool("settings","bWarningsDisabled",m_bWarningsDisabled,pIni);
m_bWarningsDisabled2 = GetPrivateProfileBoolW(L"settings",L"bWarningsDisabled2",m_bWarningsDisabled2,pIni);
//m_bAnisotropicFiltering = GetPrivateProfileBool("settings","bAnisotropicFiltering",m_bAnisotropicFiltering,pIni);
m_bPresetLockOnAtStartup = GetPrivateProfileBoolW(L"settings",L"bPresetLockOnAtStartup",m_bPresetLockOnAtStartup,pIni);
m_bPreventScollLockHandling = GetPrivateProfileBoolW(L"settings",L"m_bPreventScollLockHandling",m_bPreventScollLockHandling,pIni);
m_nCanvasStretch = GetPrivateProfileIntW(L"settings",L"nCanvasStretch" ,m_nCanvasStretch,pIni);
m_nTexSizeX = GetPrivateProfileIntW(L"settings",L"nTexSize" ,m_nTexSizeX ,pIni);
m_nTexSizeY = m_nTexSizeX;
m_bTexSizeWasAutoPow2 = (m_nTexSizeX == -2);
m_bTexSizeWasAutoExact = (m_nTexSizeX == -1);
m_nTexBitsPerCh = GetPrivateProfileIntW(L"settings", L"nTexBitsPerCh", m_nTexBitsPerCh, pIni);
m_nGridX = GetPrivateProfileIntW(L"settings",L"nMeshSize" ,m_nGridX ,pIni);
m_nGridY = m_nGridX*3/4;
m_nMaxPSVersion_ConfigPanel = GetPrivateProfileIntW(L"settings",L"MaxPSVersion",m_nMaxPSVersion_ConfigPanel,pIni);
m_nMaxImages = GetPrivateProfileIntW(L"settings",L"MaxImages",m_nMaxImages,pIni);
m_nMaxBytes = GetPrivateProfileIntW(L"settings",L"MaxBytes" ,m_nMaxBytes ,pIni);
m_fBlendTimeUser = GetPrivateProfileFloatW(L"settings",L"fBlendTimeUser" ,m_fBlendTimeUser ,pIni);
m_fBlendTimeAuto = GetPrivateProfileFloatW(L"settings",L"fBlendTimeAuto" ,m_fBlendTimeAuto ,pIni);
m_fTimeBetweenPresets = GetPrivateProfileFloatW(L"settings",L"fTimeBetweenPresets" ,m_fTimeBetweenPresets ,pIni);
m_fTimeBetweenPresetsRand = GetPrivateProfileFloatW(L"settings",L"fTimeBetweenPresetsRand",m_fTimeBetweenPresetsRand,pIni);
m_fHardCutLoudnessThresh = GetPrivateProfileFloatW(L"settings",L"fHardCutLoudnessThresh" ,m_fHardCutLoudnessThresh ,pIni);
m_fHardCutHalflife = GetPrivateProfileFloatW(L"settings",L"fHardCutHalflife" ,m_fHardCutHalflife ,pIni);
m_fSongTitleAnimDuration = GetPrivateProfileFloatW(L"settings",L"fSongTitleAnimDuration" ,m_fSongTitleAnimDuration ,pIni);
m_fTimeBetweenRandomSongTitles = GetPrivateProfileFloatW(L"settings",L"fTimeBetweenRandomSongTitles" ,m_fTimeBetweenRandomSongTitles,pIni);
m_fTimeBetweenRandomCustomMsgs = GetPrivateProfileFloatW(L"settings",L"fTimeBetweenRandomCustomMsgs" ,m_fTimeBetweenRandomCustomMsgs,pIni);
// --------
GetPrivateProfileStringW(L"settings",L"szPresetDir",m_szPresetDir,m_szPresetDir,sizeof(m_szPresetDir),pIni);
ReadCustomMessages();
// bounds-checking:
if (m_nGridX > MAX_GRID_X)
m_nGridX = MAX_GRID_X;
if (m_nGridY > MAX_GRID_Y)
m_nGridY = MAX_GRID_Y;
if (m_fTimeBetweenPresetsRand < 0)
m_fTimeBetweenPresetsRand = 0;
if (m_fTimeBetweenPresets < 0.1f)
m_fTimeBetweenPresets = 0.1f;
// DERIVED SETTINGS
m_bPresetLockedByUser = m_bPresetLockOnAtStartup;
//m_bMilkdropScrollLockState = m_bPresetLockOnAtStartup;
}
//----------------------------------------------------------------------
void CPlugin::MyWriteConfig()
{
// Write the user's settings to the .INI file.
// This gets called only when the user runs the config panel and hits OK.
// If you've added any controls to the config panel, write their value out
// to the .INI file here.
// use this function declared in to write a value of this type:
// ----------------- ----------- ----------------------------
// WritePrivateProfileInt Win32 API int
// WritePrivateProfileInt utility.h bool
// WritePrivateProfileInt utility.h BOOL
// WritePrivateProfileFloat utility.h float
// WritePrivateProfileString Win32 API string
// ex: WritePrivateProfileInt(m_fog_enabled ,"fog_enabled" ,GetConfigIniFile(),"settings");
wchar_t *pIni = GetConfigIniFile();
// constants:
WritePrivateProfileStringW(L"settings",L"bConfigured",L"1",pIni);
//note: m_szPresetDir is not written here; it is written manually, whenever it changes.
wchar_t szSectionName[] = L"settings";
WritePrivateProfileIntW(m_bSongTitleAnims, L"bSongTitleAnims", pIni, L"settings");
WritePrivateProfileIntW(m_bHardCutsDisabled, L"bHardCutsDisabled", pIni, L"settings");
WritePrivateProfileIntW(m_bEnableRating, L"bEnableRating", pIni, L"settings");
//WritePrivateProfileIntW(m_bInstaScan, "bInstaScan", pIni, "settings");
WritePrivateProfileIntW(g_bDebugOutput, L"bDebugOutput", pIni, L"settings");
//itePrivateProfileInt(m_bShowPresetInfo, "bShowPresetInfo", pIni, "settings");
//itePrivateProfileInt(m_bShowSongInfo, "bShowSongInfo", pIni, "settings");
//itePrivateProfileInt(m_bFixPinkBug, "bFixPinkBug", pIni, "settings");
WritePrivateProfileIntW(m_bShowPressF1ForHelp, L"bShowPressF1ForHelp", pIni, L"settings");
//itePrivateProfileInt(m_bShowMenuToolTips, "bShowMenuToolTips", pIni, "settings");
WritePrivateProfileIntW(m_n16BitGamma, L"n16BitGamma", pIni, L"settings");
WritePrivateProfileIntW(m_bAutoGamma, L"bAutoGamma", pIni, L"settings");
//WritePrivateProfileIntW(m_bAlways3D, "bAlways3D", pIni, "settings");
//WritePrivateProfileFloat(m_fStereoSep, "fStereoSep", pIni, "settings");
//WritePrivateProfileIntW(m_bFixSlowText, "bFixSlowText", pIni, "settings");
//itePrivateProfileInt(m_bAlwaysOnTop, "bAlwaysOnTop", pIni, "settings");
//WritePrivateProfileIntW(m_bWarningsDisabled, "bWarningsDisabled", pIni, "settings");
WritePrivateProfileIntW(m_bWarningsDisabled2, L"bWarningsDisabled2", pIni, L"settings");
//WritePrivateProfileIntW(m_bAnisotropicFiltering, "bAnisotropicFiltering",pIni, "settings");
WritePrivateProfileIntW(m_bPresetLockOnAtStartup,L"bPresetLockOnAtStartup",pIni,L"settings");
WritePrivateProfileIntW(m_bPreventScollLockHandling,L"m_bPreventScollLockHandling",pIni,L"settings");
// note: this is also written @ exit of the visualizer
WritePrivateProfileIntW(m_nCanvasStretch, L"nCanvasStretch", pIni, L"settings");
WritePrivateProfileIntW(m_nTexSizeX, L"nTexSize", pIni, L"settings");
WritePrivateProfileIntW(m_nTexBitsPerCh, L"nTexBitsPerCh", pIni, L"settings");
WritePrivateProfileIntW(m_nGridX, L"nMeshSize", pIni, L"settings");
WritePrivateProfileIntW(m_nMaxPSVersion_ConfigPanel, L"MaxPSVersion", pIni, L"settings");
WritePrivateProfileIntW(m_nMaxImages, L"MaxImages", pIni, L"settings");
WritePrivateProfileIntW(m_nMaxBytes , L"MaxBytes", pIni, L"settings");
WritePrivateProfileFloatW(m_fBlendTimeAuto, L"fBlendTimeAuto", pIni, L"settings");
WritePrivateProfileFloatW(m_fBlendTimeUser, L"fBlendTimeUser", pIni, L"settings");
WritePrivateProfileFloatW(m_fTimeBetweenPresets, L"fTimeBetweenPresets", pIni, L"settings");
WritePrivateProfileFloatW(m_fTimeBetweenPresetsRand, L"fTimeBetweenPresetsRand", pIni, L"settings");
WritePrivateProfileFloatW(m_fHardCutLoudnessThresh, L"fHardCutLoudnessThresh", pIni, L"settings");
WritePrivateProfileFloatW(m_fHardCutHalflife, L"fHardCutHalflife", pIni, L"settings");
WritePrivateProfileFloatW(m_fSongTitleAnimDuration, L"fSongTitleAnimDuration", pIni, L"settings");
WritePrivateProfileFloatW(m_fTimeBetweenRandomSongTitles,L"fTimeBetweenRandomSongTitles",pIni, L"settings");
WritePrivateProfileFloatW(m_fTimeBetweenRandomCustomMsgs,L"fTimeBetweenRandomCustomMsgs",pIni, L"settings");
}
//----------------------------------------------------------------------
void ConvertLLCto1310(char* d, const char *s)
{
// src and dest can NOT be the same pointer.
assert(s != d);
while (*s)
{
if (*s == LINEFEED_CONTROL_CHAR)
{
*d++ = 13;
*d++ = 10;
}
else
{
*d++ = *s;
}
s++;
};
*d = 0;
}
void StripComments(char* str)
{
if (!str || !str[0] || !str[1])
return;
char c0 = str[0];
char c1 = str[1];
char* dest = str;
char* p = &str[1];
bool bIgnoreTilEndOfLine = false;
bool bIgnoreTilCloseComment = false; //this one takes precedence
int nCharsToSkip = 0;
while (1)
{
// handle '//' comments
if (!bIgnoreTilCloseComment && c0=='/' && c1=='/')
bIgnoreTilEndOfLine = true;
if (bIgnoreTilEndOfLine && (c0==10 || c0==13))
{
bIgnoreTilEndOfLine = false;
nCharsToSkip = 0;
}
// handle /* */ comments
if (!bIgnoreTilEndOfLine && c0=='/' && c1=='*')
bIgnoreTilCloseComment = true;
if (bIgnoreTilCloseComment && c0=='*' && c1=='/')
{
bIgnoreTilCloseComment = false;
nCharsToSkip = 2;
}
if (!bIgnoreTilEndOfLine && !bIgnoreTilCloseComment)
{
if (nCharsToSkip > 0)
nCharsToSkip--;
else
*dest++ = c0;
}
if (c1==0)
break;
p++;
c0 = c1;
c1 = *p;
}
*dest++ = 0;
}
int CPlugin::AllocateMyNonDx9Stuff()
{
// This gets called only once, when your plugin is actually launched.
// If only the config panel is launched, this does NOT get called.
// (whereas MyPreInitialize() still does).
// If anything fails here, return FALSE to safely exit the plugin,
// but only after displaying a messagebox giving the user some information
// about what went wrong.
/*
if (!m_hBlackBrush)
m_hBlackBrush = CreateSolidBrush(RGB(0,0,0));
*/
g_hThread = INVALID_HANDLE_VALUE;
g_bThreadAlive = false;
g_bThreadShouldQuit = false;
InitializeCriticalSection(&g_cs);
// read in 'm_szShaderIncludeText'
bool bSuccess = true;
bSuccess = ReadFileToString(L"data\\include.fx", m_szShaderIncludeText, sizeof(m_szShaderIncludeText)-4, false);
if (!bSuccess) return false;
StripComments(m_szShaderIncludeText);
m_nShaderIncludeTextLen = lstrlen(m_szShaderIncludeText);
bSuccess |= ReadFileToString(L"data\\warp_vs.fx", m_szDefaultWarpVShaderText, sizeof(m_szDefaultWarpVShaderText), true);
if (!bSuccess) return false;
bSuccess |= ReadFileToString(L"data\\warp_ps.fx", m_szDefaultWarpPShaderText, sizeof(m_szDefaultWarpPShaderText), true);
if (!bSuccess) return false;
bSuccess |= ReadFileToString(L"data\\comp_vs.fx", m_szDefaultCompVShaderText, sizeof(m_szDefaultCompVShaderText), true);
if (!bSuccess) return false;
bSuccess |= ReadFileToString(L"data\\comp_ps.fx", m_szDefaultCompPShaderText, sizeof(m_szDefaultCompPShaderText), true);
if (!bSuccess) return false;
bSuccess |= ReadFileToString(L"data\\blur_vs.fx", m_szBlurVS, sizeof(m_szBlurVS), true);
if (!bSuccess) return false;
bSuccess |= ReadFileToString(L"data\\blur1_ps.fx", m_szBlurPSX, sizeof(m_szBlurPSX), true);
if (!bSuccess) return false;
bSuccess |= ReadFileToString(L"data\\blur2_ps.fx", m_szBlurPSY, sizeof(m_szBlurPSY), true);
if (!bSuccess) return false;
BuildMenus();
m_bMMX = CheckForMMX();
//m_bSSE = CheckForSSE();
m_pState->Default();
m_pOldState->Default();
m_pNewState->Default();
//LoadRandomPreset(0.0f); -avoid this here; causes some DX9 stuff to happen.
return true;
}
//----------------------------------------------------------------------
void CancelThread(int max_wait_time_ms)
{
g_bThreadShouldQuit = true;
int waited = 0;
while (g_bThreadAlive && waited < max_wait_time_ms)
{
Sleep(30);
waited += 30;
}
if (g_bThreadAlive)
{
TerminateThread(g_hThread,0);
g_bThreadAlive = false;
}
if (g_hThread != INVALID_HANDLE_VALUE)
CloseHandle(g_hThread);
g_hThread = INVALID_HANDLE_VALUE;
}
void CPlugin::CleanUpMyNonDx9Stuff()
{
// This gets called only once, when your plugin exits.
// Be sure to clean up any objects here that were
// created/initialized in AllocateMyNonDx9Stuff.
//sound.Finish();
// NOTE: DO NOT DELETE m_gdi_titlefont_doublesize HERE!!!
DeleteCriticalSection(&g_cs);
CancelThread(0);
m_menuPreset .Finish();
m_menuWave .Finish();
m_menuAugment .Finish();
m_menuCustomWave.Finish();
m_menuCustomShape.Finish();
m_menuMotion .Finish();
m_menuPost .Finish();
int i = 0;
for (i=0; i<MAX_CUSTOM_WAVES; i++)
m_menuWavecode[i].Finish();
for (i=0; i<MAX_CUSTOM_SHAPES; i++)
m_menuShapecode[i].Finish();
SetScrollLock(m_bOrigScrollLockState, m_bPreventScollLockHandling);
//dumpmsg("Finish: cleanup complete.");
}
//----------------------------------------------------------------------
float SquishToCenter(float x, float fExp)
{
if (x > 0.5f)
return powf(x*2-1, fExp)*0.5f + 0.5f;
return (1-powf(1-x*2, fExp))*0.5f;
}
int GetNearestPow2Size(int w, int h)
{
float fExp = logf( max(w,h)*0.75f + 0.25f*min(w,h) ) / logf(2.0f);
float bias = 0.55f;
if (fExp + bias >= 11.0f) // ..don't jump to 2048x2048 quite as readily
bias = 0.5f;
int nExp = (int)(fExp + bias);
int log2size = (int)powf(2.0f, (float)nExp);
return log2size;
}
int CPlugin::AllocateMyDX9Stuff()
{
// (...aka OnUserResizeWindow)
// (...aka OnToggleFullscreen)
// Allocate and initialize all your DX9 and D3DX stuff here: textures,
// surfaces, vertex/index buffers, D3DX fonts, and so on.
// If anything fails here, return FALSE to safely exit the plugin,
// but only after displaying a messagebox giving the user some information
// about what went wrong. If the error is NON-CRITICAL, you don't *have*
// to return; just make sure that the rest of the code will be still safely
// run (albeit with degraded features).
// If you run out of video memory, you might want to show a short messagebox
// saying what failed to allocate and that the reason is a lack of video
// memory, and then call SuggestHowToFreeSomeMem(), which will show them
// a *second* messagebox that (intelligently) suggests how they can free up
// some video memory.
// Don't forget to account for each object you create/allocate here by cleaning
// it up in CleanUpMyDX9Stuff!
// IMPORTANT:
// Note that the code here isn't just run at program startup!
// When the user toggles between fullscreen and windowed modes
// or resizes the window, the base class calls this function before
// destroying & recreating the plugin window and DirectX object, and then
// calls AllocateMyDX9Stuff afterwards, to get your plugin running again.
wchar_t buf[32768], title[64];
m_nFramesSinceResize = 0;
int nNewCanvasStretch = (m_nCanvasStretch == 0) ? 100 : m_nCanvasStretch;
DWORD PSVersion = GetCaps()->PixelShaderVersion & 0xFFFF; // 0x0300, etc.
if (PSVersion >= 0x0300)
m_nMaxPSVersion_DX9 = MD2_PS_3_0;
else if (PSVersion > 0x0200)
m_nMaxPSVersion_DX9 = MD2_PS_2_X;
else if (PSVersion >= 0x0200)
m_nMaxPSVersion_DX9 = MD2_PS_2_0;
else
m_nMaxPSVersion_DX9 = MD2_PS_NONE;
if (m_nMaxPSVersion_ConfigPanel == -1)
m_nMaxPSVersion = m_nMaxPSVersion_DX9;
else
{
// to still limit their choice by what HW reports:
//m_nMaxPSVersion = min(m_nMaxPSVersion_DX9, m_nMaxPSVersion_ConfigPanel);
// to allow them to override:
m_nMaxPSVersion = m_nMaxPSVersion_ConfigPanel;
}
/*
Auto mode: do a check against a few known, *SLOW* DX9/ps_2_0 cards to see
if we should run them without pixel shaders instead.
Here is valve's list of the cards they run DX8 on (mostly because they're too slow under DX9 + ps_2_0):
NVIDIA GeForce FX 5200<30> 31.12%
ATI Radeon 9200<30><30><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> 21.29%
NVIDIA GeForce FX 5500<30> 11.27%
NVIDIA GeForce4<65><34><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> 7.74%
NVIDIA GeForce FX 5700<30><30> 7.12%
NVIDIA GeForce FX 5600<30><30> 5.16%
SiS 661FX_760_741<34><31><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> 3.34%
NVIDIA GeForce FX 5900<30><30> 3.24%
NVIDIA GeForce3<65><33><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> 2.09%
ATI Radeon 9000<30><30><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> 1.98%
other<65><72><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> 5.66%
[ from http://www.steampowered.com/status/survey.html ]
see also:
http://en.wikipedia.org/wiki/Radeon
http://en.wikipedia.org/wiki/Geforce_fx
*/
const char* szGPU = GetDriverDescription();
/* known examples of this string:
"ATI MOBILITY RADEON X600"
"RADEON X800 Series " <- note the spaces at the end
"Sapphire RADEON X700"
"NVIDIA GeForce Go 6200 " <- note the spaces at the end
"NVIDIA GeForce 6800 GT"
"Intel(R) 82865G Graphics Controller"
"Mobile Intel(R) 915GM/GMS,910GML Express Chipset Family"
might want to consider adding these to the list: [from http://www.intel.com/support/graphics/sb/cs-014257.htm ]
(...they should support PS2.0, but not sure if they're fast...)
"Mobile Intel(R) 945GM Express Chipset Family"
"Mobile Intel(R) 915GM/GMS,910GML Express Chipset"
"Intel(R) 945G Express Chipset"
"Intel(R) 82915G/82910GL Express Chipset Family"
or these, if they seem to be reporting that they do support ps_2_0, which would be very bogus info:
"Intel(R) 82865G Graphics Controller"
"Intel(R) 82852/82855 Graphics Controller Family"
"Intel(R) 82845G Graphics Controller"
"Intel(R) 82830M Graphics Controller"
"Intel(R) 82815 Graphics Controller"
"Intel(R) 82810 Graphics Controller"
*/
// GREY LIST - slow ps_2_0 cards
// In Canvas Stretch==Auto mode, for these cards, if they (claim to) run ps_2_0,
// we run at half-res (cuz they're slow).
// THE GENERAL GUIDELINE HERE:
// It should be at least as fast as a GeForce FX 5700 or my GeForce 6200 (TC)
// if it's to run without stretch.
if (m_nCanvasStretch==0)// && m_nMaxPSVersion_DX9 > 0)
{
// put cards on this list if you see them successfully run ps_2_0 (using override)
// and they run well at a low resolution (512x512 or less).
if (
strstr(szGPU, "GeForce 4" ) || // probably not even ps_2_0
strstr(szGPU, "GeForce FX 52" ) || // chip's computer (FX 5200) - does do ps_2_0, but slow
strstr(szGPU, "GeForce FX 53" ) ||
strstr(szGPU, "GeForce FX 54" ) ||
strstr(szGPU, "GeForce FX 55" ) || //GeForce FX 5600 is 13 GB/s - 2.5x as fast as my 6200!
strstr(szGPU, "GeForce FX 56" ) ||
//...GeForce FX 5700 and up, we let those run at full-res on ps_2_0...
strstr(szGPU, "GeForce FX 56" ) ||
strstr(szGPU, "GeForce FX 56" ) ||
strstr(szGPU, "SiS 300/305/630/540/730") || // mom's computer - just slow.
strstr(szGPU, "Radeon 8" ) || // no shader model 2.
strstr(szGPU, "Radeon 90" ) || // from Valve. no shader model 2.
strstr(szGPU, "Radeon 91" ) || // no shader model 2.
strstr(szGPU, "Radeon 92" ) || // from Valve. no shader model 2.
strstr(szGPU, "Radeon 93" ) || // no shader model 2.
strstr(szGPU, "Radeon 94" ) || // no shader model 2.
// guessing that 9500+ are ok - they're all ps_2_0 and the 9600 is like an FX 5900.
strstr(szGPU, "Radeon 9550") || // *maybe* - kiv - super budget R200 chip. def. ps_2_0 but possibly very slow.
strstr(szGPU, "Radeon X300") || // *maybe* - kiv - super budget R200 chip def. ps_2_0 but possibly very slow.
0)
{
nNewCanvasStretch = 200;
}
}
/* pix pipes
core Fill(G) membw(GB/s)
Radeon 9600 Pro 400 4 1.6 9.6
Radeon 9600 XT 500 4 2.0 9.6
GeForce FX 5600 Ultra 400 4 1.6 12.8
GeForce FX 5700 Ultra 475 4 1.9 14.4
GeForce FX 5900 XT 400 4 1.6 22.4
GeForce FX 5900 450 4 1.8 27.2
GeForce FX 5950 Ultra 475 4 2.9 30
GeForce 6200 TC-32 350 4 1.1 5.6 (TurboDonkey)
GeForce 6600 GT 500 8 2.0 16
GeForce 6800 Ultra 400 16 6.4 35
ATI Radeon X800 XT PE 520 16 8.3 36
ATI Radeon X850 XT PE 540 16 8.6 38
Entry-level GPU 5200, 5300, 5500
Mid-Range GPU 5600, 5700
High-end GPU 5800, 5900, 5950
Entry-level GPU 6200, 6500
Mid-Range GPU 6600
High-end GPU 6800
Entry-level GPU
Mid-Range GPU
High-end GPU
R200: only ps_1_4. Radeon 8500-9250.
R300: ps_2_0. Radeon 9500-9800, X300-X600, X1050. 9600 fast enough (~FX5900). 9500/9700 ~ GeForce 4 Ti.
R420: ps_2_0 Radeon X700-8750 - ALL FAST ENOUGH. X700 is same speed as a GeForce 6600.
6600 ~ X700
GeForce 4 < X300 / X600 / 9600
GeForce 4 Ti > Radeon 8500
FX 5900 = Radeon 9600
FX 5900 Ultra << [half] Radeon 9800 Pro
GeForce FX < Radeon 9700/9800
*/
// BLACK LIST
// In Pixel Shaders==Auto mode, for these cards, we avoid ps_2_0 completely.
// There shouldn't be much on this list... feel free to put anything you KNOW doesn't do ps_2_0 (why not),
// and to put anything that is slow to begin with, and HAS BUGGY DRIVERS (INTEL).
if (m_nMaxPSVersion_ConfigPanel==-1)
{
if (strstr(szGPU, "GeForce2" ) || // from Valve
strstr(szGPU, "GeForce3" ) || // from Valve
strstr(szGPU, "GeForce4" ) || // from Valve
strstr(szGPU, "Radeon 7" ) || // from Valve
strstr(szGPU, "Radeon 8" ) ||
strstr(szGPU, "SiS 661FX_760_741") || // from Valve
//FOR NOW, FOR THESE, ASSUME INTEL EITHER DOESN'T DO PS_2_0,
//OR DRIVERS SUCK AND IT WOULDN'T WORK ANYWAY!
(strstr(szGPU,"Intel") && strstr(szGPU,"945G")) ||
(strstr(szGPU,"Intel") && strstr(szGPU,"915G")) || // ben allison's laptop - snow, freezing when you try ps_2_0
(strstr(szGPU,"Intel") && strstr(szGPU,"910G")) ||
(strstr(szGPU,"Intel") && strstr(szGPU,"8291")) || // gonna guess that this supports ps_2_0 but is SLOW
(strstr(szGPU,"Intel") && strstr(szGPU,"8281")) || // definitely DOESN'T support pixel shaders
(strstr(szGPU,"Intel") && strstr(szGPU,"8283")) || // definitely DOESN'T support pixel shaders
(strstr(szGPU,"Intel") && strstr(szGPU,"8284")) || // definitely DOESN'T support pixel shaders
(strstr(szGPU,"Intel") && strstr(szGPU,"8285")) || // definitely DOESN'T support pixel shaders
(strstr(szGPU,"Intel") && strstr(szGPU,"8286")) || // definitely DOESN'T support pixel shaders. Ben Allison's desktop (865) - no image w/ps_2_0. Plus Nes's desktop - no ps_2_0.
0)
{
m_nMaxPSVersion = MD2_PS_NONE;
//if (m_nCanvasStretch==0)
// nNewCanvasStretch = 100;
}
}
/*char fname[512];
sprintf(fname, "%s%s", GetPluginsDirPath(), TEXTURE_NAME);
if (D3DXCreateTextureFromFile(GetDevice(), fname, &m_object_tex) != S_OK)
{
// just give a warning, and move on
m_object_tex = NULL; // (make sure pointer wasn't mangled by some bad driver)
char msg[1024];
sprintf(msg, "Unable to load texture:\r%s", fname);
MessageBox(GetPluginWindow(), msg, "WARNING", MB_OK|MB_SETFOREGROUND|MB_TOPMOST);
//return false;
}*/
// Note: this code used to be in OnResizeGraphicsWindow().
// SHADERS
//-------------------------------------
if (m_nMaxPSVersion > MD2_PS_NONE)
{
// Create vertex declarations (since we're not using FVF anymore)
if (D3D_OK != GetDevice()->CreateVertexDeclaration( g_MyVertDecl, &m_pMyVertDecl ))
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_CREATE_MY_VERTEX_DECLARATION,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,sizeof(title)), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
if (D3D_OK != GetDevice()->CreateVertexDeclaration( g_WfVertDecl, &m_pWfVertDecl ))
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_CREATE_WF_VERTEX_DECLARATION,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,sizeof(title)), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
if (D3D_OK != GetDevice()->CreateVertexDeclaration( g_SpriteVertDecl, &m_pSpriteVertDecl ))
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_CREATE_SPRITE_VERTEX_DECLARATION,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,sizeof(title)), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
// Load the FALLBACK shaders...
if (!RecompilePShader(m_szDefaultWarpPShaderText, &m_fallbackShaders_ps.warp, SHADER_WARP, true, 2))
{
wchar_t szSM[64];
switch(m_nMaxPSVersion_DX9)
{
case MD2_PS_2_0:
case MD2_PS_2_X:
WASABI_API_LNGSTRINGW_BUF(IDS_SHADER_MODEL_2,szSM,64); break;
case MD2_PS_3_0: WASABI_API_LNGSTRINGW_BUF(IDS_SHADER_MODEL_3,szSM,64); break;
case MD2_PS_4_0: WASABI_API_LNGSTRINGW_BUF(IDS_SHADER_MODEL_4,szSM,64); break;
default:
swprintf(szSM, WASABI_API_LNGSTRINGW(IDS_UKNOWN_CASE_X), m_nMaxPSVersion_DX9);
break;
}
if (m_nMaxPSVersion_ConfigPanel >= MD2_PS_NONE && m_nMaxPSVersion_DX9 < m_nMaxPSVersion_ConfigPanel)
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_FAILED_TO_COMPILE_PIXEL_SHADERS_USING_X),szSM,PSVersion);
else
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_FAILED_TO_COMPILE_PIXEL_SHADERS_HARDWARE_MIS_REPORT),szSM,PSVersion);
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
if (!RecompileVShader(m_szDefaultWarpVShaderText, &m_fallbackShaders_vs.warp, SHADER_WARP, true))
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_COMPILE_FALLBACK_WV_SHADER,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
if (!RecompileVShader(m_szDefaultCompVShaderText, &m_fallbackShaders_vs.comp, SHADER_COMP, true))
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_COMPILE_FALLBACK_CV_SHADER,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
if (!RecompilePShader(m_szDefaultCompPShaderText, &m_fallbackShaders_ps.comp, SHADER_COMP, true, 2))
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_COMPILE_FALLBACK_CP_SHADER,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
// Load the BLUR shaders...
if (!RecompileVShader(m_szBlurVS, &m_BlurShaders[0].vs, SHADER_BLUR, true))
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_COMPILE_BLUR1_VERTEX_SHADER,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
if (!RecompilePShader(m_szBlurPSX, &m_BlurShaders[0].ps, SHADER_BLUR, true, 2))
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_COMPILE_BLUR1_PIXEL_SHADER,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
if (!RecompileVShader(m_szBlurVS, &m_BlurShaders[1].vs, SHADER_BLUR, true))
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_COMPILE_BLUR2_VERTEX_SHADER,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
if (!RecompilePShader(m_szBlurPSY, &m_BlurShaders[1].ps, SHADER_BLUR, true, 2))
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_COMPILE_BLUR2_PIXEL_SHADER,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
}
// create m_lpVS[2]
{
int log2texsize = GetNearestPow2Size(GetWidth(), GetHeight());
// auto-guess texsize
if (m_bTexSizeWasAutoExact)
{
// note: in windowed mode, the winamp window could be weird sizes,
// so the plugin shell now gives us a slightly enlarged size,
// which pads it out to the nearest 32x32 block size,
// and then on display, it intelligently crops the image.
// This is pretty likely to work on non-shitty GPUs.
// but some shitty ones will still only do powers of 2!
// So if we are running out of video memory here or experience
// other problems, though, we can make our VS's smaller;
// which will work, although it will lead to stretching.
m_nTexSizeX = GetWidth();
m_nTexSizeY = GetHeight();
}
else if (m_bTexSizeWasAutoPow2)
{
m_nTexSizeX = log2texsize;
m_nTexSizeY = log2texsize;
}
// clip texsize by max. from caps
if ((DWORD)m_nTexSizeX > GetCaps()->MaxTextureWidth && GetCaps()->MaxTextureWidth>0)
m_nTexSizeX = GetCaps()->MaxTextureWidth;
if ((DWORD)m_nTexSizeY > GetCaps()->MaxTextureHeight && GetCaps()->MaxTextureHeight>0)
m_nTexSizeY = GetCaps()->MaxTextureHeight;
// apply canvas stretch
m_nTexSizeX = (m_nTexSizeX * 100)/nNewCanvasStretch;
m_nTexSizeY = (m_nTexSizeY * 100)/nNewCanvasStretch;
// re-compute closest power-of-2 size, now that we've factored in the stretching...
log2texsize = GetNearestPow2Size(m_nTexSizeX, m_nTexSizeY);
if (m_bTexSizeWasAutoPow2)
{
m_nTexSizeX = log2texsize;
m_nTexSizeY = log2texsize;
}
// snap to 16x16 blocks
m_nTexSizeX = ((m_nTexSizeX+15)/16)*16;
m_nTexSizeY = ((m_nTexSizeY+15)/16)*16;
// determine format for VS1/VS2
D3DFORMAT fmt;
switch(m_nTexBitsPerCh) {
case 5: fmt = D3DFMT_R5G6B5 ; break;
case 8: fmt = D3DFMT_X8R8G8B8 ; break;
case 10: fmt = D3DFMT_A2R10G10B10; break; // D3DFMT_A2W10V10U10 or D3DFMT_A2R10G10B10 or D3DFMT_A2B10G10R10
case 16: fmt = D3DFMT_A16B16G16R16F; break;
case 32: fmt = D3DFMT_A32B32G32R32F; break; //FIXME
default: fmt = D3DFMT_X8R8G8B8 ; break;
}
// reallocate
bool bSuccess = false;
DWORD vs_flags = D3DUSAGE_RENDERTARGET;// | D3DUSAGE_AUTOGENMIPMAP;//FIXME! (make automipgen optional)
bool bRevertedBitDepth = false;
do
{
SafeRelease(m_lpVS[0]);
SafeRelease(m_lpVS[1]);
// create VS1
bSuccess = (GetDevice()->CreateTexture(m_nTexSizeX, m_nTexSizeY, 1, vs_flags, fmt, D3DPOOL_DEFAULT, &m_lpVS[0], NULL) == D3D_OK);
if (!bSuccess)
{
bSuccess = (GetDevice()->CreateTexture(m_nTexSizeX, m_nTexSizeY, 1, vs_flags, GetBackBufFormat(), D3DPOOL_DEFAULT, &m_lpVS[0], NULL) == D3D_OK);
if (bSuccess)
fmt = GetBackBufFormat();
}
// create VS2
if (bSuccess)
bSuccess = (GetDevice()->CreateTexture(m_nTexSizeX, m_nTexSizeY, 1, vs_flags, fmt, D3DPOOL_DEFAULT, &m_lpVS[1], NULL) == D3D_OK);
if (!bSuccess)
{
if (m_bTexSizeWasAutoExact)
{
if (m_nTexSizeX > 256 || m_nTexSizeY > 256)
{
m_nTexSizeX /= 2;
m_nTexSizeY /= 2;
m_nTexSizeX = ((m_nTexSizeX+15)/16)*16;
m_nTexSizeY = ((m_nTexSizeY+15)/16)*16;
}
else
{
m_nTexSizeX = log2texsize;
m_nTexSizeY = log2texsize;
m_bTexSizeWasAutoExact = false;
m_bTexSizeWasAutoPow2 = true;
}
}
else if (m_bTexSizeWasAutoPow2)
{
if (m_nTexSizeX > 256)
{
m_nTexSizeX /= 2;
m_nTexSizeY /= 2;
}
else
break;
}
}
}
while (!bSuccess);// && m_nTexSizeX >= 256 && (m_bTexSizeWasAutoExact || m_bTexSizeWasAutoPow2));
if (!bSuccess)
{
wchar_t buf[2048];
UINT err_id = IDS_COULD_NOT_CREATE_INTERNAL_CANVAS_TEXTURE_NOT_ENOUGH_VID_MEM;
if (GetScreenMode() == FULLSCREEN)
err_id = IDS_COULD_NOT_CREATE_INTERNAL_CANVAS_TEXTURE_SMALLER_DISPLAY;
else if (!(m_bTexSizeWasAutoExact || m_bTexSizeWasAutoPow2))
err_id = IDS_COULD_NOT_CREATE_INTERNAL_CANVAS_TEXTURE_NOT_ENOUGH_VID_MEM_RECOMMENDATION;
WASABI_API_LNGSTRINGW_BUF(err_id,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
else
{
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_SUCCESSFULLY_CREATED_VS0_VS1), m_nTexSizeX, m_nTexSizeY, GetWidth(), GetHeight());
dumpmsg(buf);
}
/*
if (m_nTexSizeX != GetWidth() || m_nTexSizeY != GetHeight())
{
char buf[2048];
sprintf(buf, "warning - canvas size adjusted from %dx%d to %dx%d.", GetWidth(), GetHeight(), m_nTexSizeX, m_nTexSizeY);
dumpmsg(buf);
AddError(buf, 3.2f, ERR_INIT, true);
}/**/
// create blur textures w/same format. A complete mip chain costs 33% more video mem then 1 full-sized VS.
#if (NUM_BLUR_TEX>0)
int w = m_nTexSizeX;
int h = m_nTexSizeY;
DWORD blurtex_flags = D3DUSAGE_RENDERTARGET;// | D3DUSAGE_AUTOGENMIPMAP;//FIXME! (make automipgen optional)
for (int i=0; i<NUM_BLUR_TEX; i++)
{
// main VS = 1024
// blur0 = 512
// blur1 = 256 <- user sees this as "blur1"
// blur2 = 128
// blur3 = 128 <- user sees this as "blur2"
// blur4 = 64
// blur5 = 64 <- user sees this as "blur3"
if (!(i&1) || (i<2))
{
w = max(16, w/2);
h = max(16, h/2);
}
int w2 = ((w+3)/16)*16;
int h2 = ((h+3)/4)*4;
bSuccess = (GetDevice()->CreateTexture(w2, h2, 1, blurtex_flags, fmt, D3DPOOL_DEFAULT, &m_lpBlur[i], NULL) == D3D_OK);
m_nBlurTexW[i] = w2;
m_nBlurTexH[i] = h2;
if (!bSuccess)
{
m_nBlurTexW[i] = 1;
m_nBlurTexH[i] = 1;
MessageBoxW(GetPluginWindow(), WASABI_API_LNGSTRINGW_BUF(IDS_ERROR_CREATING_BLUR_TEXTURES,buf,sizeof(buf)),
WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_WARNING,title,sizeof(title)), MB_OK|MB_SETFOREGROUND|MB_TOPMOST);
break;
}
// add it to m_textures[].
TexInfo x;
swprintf(x.texname, L"blur%d%s", i/2+1, (i%2) ? L"" : L"doNOTuseME");
x.texptr = m_lpBlur[i];
//x.texsize_param = NULL;
x.w = w2;
x.h = h2;
x.d = 1;
x.bEvictable = false;
x.nAge = m_nPresetsLoadedTotal;
x.nSizeInBytes = 0;
m_textures.push_back(x);
}
#endif
}
m_fAspectX = (m_nTexSizeY > m_nTexSizeX) ? m_nTexSizeX/(float)m_nTexSizeY : 1.0f;
m_fAspectY = (m_nTexSizeX > m_nTexSizeY) ? m_nTexSizeY/(float)m_nTexSizeX : 1.0f;
m_fInvAspectX = 1.0f/m_fAspectX;
m_fInvAspectY = 1.0f/m_fAspectY;
// BUILD VERTEX LIST for final composite blit
// note the +0.5-texel offset!
// (otherwise, a 1-pixel-wide line of the image would wrap at the top and left edges).
ZeroMemory(m_comp_verts, sizeof(MYVERTEX)*FCGSX*FCGSY);
//float fOnePlusInvWidth = 1.0f + 1.0f/(float)GetWidth();
//float fOnePlusInvHeight = 1.0f + 1.0f/(float)GetHeight();
float fHalfTexelW = 0.5f / (float)GetWidth(); // 2.5: 2 pixels bad @ bottom right
float fHalfTexelH = 0.5f / (float)GetHeight();
float fDivX = 1.0f / (float)(FCGSX-2);
float fDivY = 1.0f / (float)(FCGSY-2);
for (int j=0; j<FCGSY; j++)
{
int j2 = j - j/(FCGSY/2);
float v = j2*fDivY;
v = SquishToCenter(v, 3.0f);
float sy = -((v-fHalfTexelH)*2-1);//fOnePlusInvHeight*v*2-1;
for (int i=0; i<FCGSX; i++)
{
int i2 = i - i/(FCGSX/2);
float u = i2*fDivX;
u = SquishToCenter(u, 3.0f);
float sx = (u-fHalfTexelW)*2-1;//fOnePlusInvWidth*u*2-1;
MYVERTEX* p = &m_comp_verts[i + j*FCGSX];
p->x = sx;
p->y = sy;
p->z = 0;
float rad, ang;
UvToMathSpace( u, v, &rad, &ang );
// fix-ups:
if (i==FCGSX/2-1) {
if (j < FCGSY/2-1)
ang = 3.1415926535898f*1.5f;
else if (j == FCGSY/2-1)
ang = 3.1415926535898f*1.25f;
else if (j == FCGSY/2)
ang = 3.1415926535898f*0.75f;
else
ang = 3.1415926535898f*0.5f;
}
else if (i==FCGSX/2) {
if (j < FCGSY/2-1)
ang = 3.1415926535898f*1.5f;
else if (j == FCGSY/2-1)
ang = 3.1415926535898f*1.75f;
else if (j == FCGSY/2)
ang = 3.1415926535898f*0.25f;
else
ang = 3.1415926535898f*0.5f;
}
else if (j==FCGSY/2-1) {
if (i < FCGSX/2-1)
ang = 3.1415926535898f*1.0f;
else if (i == FCGSX/2-1)
ang = 3.1415926535898f*1.25f;
else if (i == FCGSX/2)
ang = 3.1415926535898f*1.75f;
else
ang = 3.1415926535898f*2.0f;
}
else if (j==FCGSY/2) {
if (i < FCGSX/2-1)
ang = 3.1415926535898f*1.0f;
else if (i == FCGSX/2-1)
ang = 3.1415926535898f*0.75f;
else if (i == FCGSX/2)
ang = 3.1415926535898f*0.25f;
else
ang = 3.1415926535898f*0.0f;
}
p->tu = u;
p->tv = v;
//p->tu_orig = u;
//p->tv_orig = v;
p->rad = rad;
p->ang = ang;
p->Diffuse = 0xFFFFFFFF;
}
}
// build index list for final composite blit -
// order should be friendly for interpolation of 'ang' value!
int* cur_index = &m_comp_indices[0];
int y = 0;
for (y=0; y<FCGSY-1; y++)
{
if (y==FCGSY/2-1)
continue;
for (int x=0; x<FCGSX-1; x++)
{
if (x==FCGSX/2-1)
continue;
bool left_half = (x < FCGSX/2);
bool top_half = (y < FCGSY/2);
bool center_4 = ((x==FCGSX/2 || x==FCGSX/2-1) && (y==FCGSY/2 || y==FCGSY/2-1));
if ( ((int)left_half + (int)top_half + (int)center_4) % 2 )
{
*(cur_index+0) = (y )*FCGSX + (x );
*(cur_index+1) = (y )*FCGSX + (x+1);
*(cur_index+2) = (y+1)*FCGSX + (x+1);
*(cur_index+3) = (y+1)*FCGSX + (x+1);
*(cur_index+4) = (y+1)*FCGSX + (x );
*(cur_index+5) = (y )*FCGSX + (x );
}
else
{
*(cur_index+0) = (y+1)*FCGSX + (x );
*(cur_index+1) = (y )*FCGSX + (x );
*(cur_index+2) = (y )*FCGSX + (x+1);
*(cur_index+3) = (y )*FCGSX + (x+1);
*(cur_index+4) = (y+1)*FCGSX + (x+1);
*(cur_index+5) = (y+1)*FCGSX + (x );
}
cur_index += 6;
}
}
// -----------------
/*if (m_bFixSlowText && !m_bSeparateTextWindow)
{
if (pCreateTexture(GetDevice(), GetWidth(), GetHeight(), 1, D3DUSAGE_RENDERTARGET, GetBackBufFormat(), D3DPOOL_DEFAULT, &m_lpDDSText) != D3D_OK)
{
char buf[2048];
dumpmsg("Init: -WARNING-:");
sprintf(buf, "WARNING: Not enough video memory to make a dedicated text surface; \rtext will still be drawn directly to the back buffer.\r\rTo avoid seeing this error again, uncheck the 'fix slow text' option.");
dumpmsg(buf);
if (!m_bWarningsDisabled)
MessageBox(GetPluginWindow(), buf, "WARNING", MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
m_lpDDSText = NULL;
}
}*/
// -----------------
// reallocate the texture for font titles + custom msgs (m_lpDDSTitle)
{
m_nTitleTexSizeX = max(m_nTexSizeX, m_nTexSizeY);
m_nTitleTexSizeY = m_nTitleTexSizeX/4;
//dumpmsg("Init: [re]allocating title surface");
// [DEPRECATED as of transition to dx9:]
// We could just create one title surface, but this is a problem because many
// systems can only call DrawText on DDSCAPS_OFFSCREENPLAIN surfaces, and can NOT
// draw text on a DDSCAPS_TEXTURE surface (it comes out garbled).
// So, we create one of each; we draw the text to the DDSCAPS_OFFSCREENPLAIN surface
// (m_lpDDSTitle[1]), then we blit that (once) to the DDSCAPS_TEXTURE surface
// (m_lpDDSTitle[0]), which can then be drawn onto the screen on polys.
HRESULT hr;
do
{
hr = pCreateTexture(GetDevice(), m_nTitleTexSizeX, m_nTitleTexSizeY, 1, D3DUSAGE_RENDERTARGET, GetBackBufFormat(), D3DPOOL_DEFAULT, &m_lpDDSTitle);
if (hr != D3D_OK)
{
if (m_nTitleTexSizeY < m_nTitleTexSizeX)
{
m_nTitleTexSizeY *= 2;
}
else
{
m_nTitleTexSizeX /= 2;
m_nTitleTexSizeY /= 2;
}
}
}
while (hr != D3D_OK && m_nTitleTexSizeX > 16);
if (hr != D3D_OK)
{
//dumpmsg("Init: -WARNING-: Title texture could not be created!");
m_lpDDSTitle = NULL;
//SafeRelease(m_lpDDSTitle);
//return true;
}
else
{
//sprintf(buf, "Init: title texture size is %dx%d (ideal size was %dx%d)", m_nTitleTexSizeX, m_nTitleTexSizeY, m_nTexSize, m_nTexSize/4);
//dumpmsg(buf);
m_supertext.bRedrawSuperText = true;
}
}
// -----------------
// create 'm_gdi_title_font_doublesize'
int songtitle_font_size = m_fontinfo[SONGTITLE_FONT].nSize * m_nTitleTexSizeX/256;
if (songtitle_font_size<6) songtitle_font_size=6;
if (!(m_gdi_title_font_doublesize = CreateFontW(songtitle_font_size, 0, 0, 0, m_fontinfo[SONGTITLE_FONT].bBold ? 900 : 400,
m_fontinfo[SONGTITLE_FONT].bItalic, FALSE, FALSE, DEFAULT_CHARSET, OUT_DEFAULT_PRECIS, CLIP_DEFAULT_PRECIS, m_fontinfo[SONGTITLE_FONT].bAntiAliased ? ANTIALIASED_QUALITY : DEFAULT_QUALITY, DEFAULT_PITCH, m_fontinfo[SONGTITLE_FONT].szFace)))
{
MessageBoxW(NULL, WASABI_API_LNGSTRINGW(IDS_ERROR_CREATING_DOUBLE_SIZED_GDI_TITLE_FONT),
WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,sizeof(title)),
MB_OK|MB_SETFOREGROUND|MB_TOPMOST);
return false;
}
if (pCreateFontW( GetDevice(),
songtitle_font_size,
0,
m_fontinfo[SONGTITLE_FONT].bBold ? 900 : 400,
1,
m_fontinfo[SONGTITLE_FONT].bItalic,
DEFAULT_CHARSET,
OUT_DEFAULT_PRECIS,
ANTIALIASED_QUALITY,//DEFAULT_QUALITY,
DEFAULT_PITCH,
m_fontinfo[SONGTITLE_FONT].szFace,
&m_d3dx_title_font_doublesize
) != D3D_OK)
{
MessageBoxW(GetPluginWindow(), WASABI_API_LNGSTRINGW(IDS_ERROR_CREATING_DOUBLE_SIZED_D3DX_TITLE_FONT),
WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,sizeof(title)), MB_OK|MB_SETFOREGROUND|MB_TOPMOST);
return false;
}
// -----------------
m_texmgr.Init(GetDevice());
//dumpmsg("Init: mesh allocation");
m_verts = new MYVERTEX[(m_nGridX+1)*(m_nGridY+1)];
m_verts_temp = new MYVERTEX[(m_nGridX+2) * 4];
m_vertinfo = new td_vertinfo[(m_nGridX+1)*(m_nGridY+1)];
m_indices_strip = new int[(m_nGridX+2)*(m_nGridY*2)];
m_indices_list = new int[m_nGridX*m_nGridY*6];
if (!m_verts || !m_vertinfo)
{
swprintf(buf, L"couldn't allocate mesh - out of memory");
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
int nVert = 0;
float texel_offset_x = 0.5f / (float)m_nTexSizeX;
float texel_offset_y = 0.5f / (float)m_nTexSizeY;
for (y=0; y<=m_nGridY; y++)
{
for (int x=0; x<=m_nGridX; x++)
{
// precompute x,y,z
m_verts[nVert].x = x/(float)m_nGridX*2.0f - 1.0f;
m_verts[nVert].y = y/(float)m_nGridY*2.0f - 1.0f;
m_verts[nVert].z = 0.0f;
// precompute rad, ang, being conscious of aspect ratio
m_vertinfo[nVert].rad = sqrtf(m_verts[nVert].x*m_verts[nVert].x*m_fAspectX*m_fAspectX + m_verts[nVert].y*m_verts[nVert].y*m_fAspectY*m_fAspectY);
if (y==m_nGridY/2 && x==m_nGridX/2)
m_vertinfo[nVert].ang = 0.0f;
else
m_vertinfo[nVert].ang = atan2f(m_verts[nVert].y*m_fAspectY, m_verts[nVert].x*m_fAspectX);
m_vertinfo[nVert].a = 1;
m_vertinfo[nVert].c = 0;
m_verts[nVert].rad = m_vertinfo[nVert].rad;
m_verts[nVert].ang = m_vertinfo[nVert].ang;
m_verts[nVert].tu_orig = m_verts[nVert].x*0.5f + 0.5f + texel_offset_x;
m_verts[nVert].tv_orig = -m_verts[nVert].y*0.5f + 0.5f + texel_offset_y;
nVert++;
}
}
// generate triangle strips for the 4 quadrants.
// each quadrant has m_nGridY/2 strips.
// each strip has m_nGridX+2 *points* in it, or m_nGridX/2 polygons.
int xref, yref;
int nVert_strip = 0;
for (int quadrant=0; quadrant<4; quadrant++)
{
for (int slice=0; slice < m_nGridY/2; slice++)
{
for (int i=0; i < m_nGridX + 2; i++)
{
// quadrants: 2 3
// 0 1
xref = i/2;
yref = (i%2) + slice;
if (quadrant & 1)
xref = m_nGridX - xref;
if (quadrant & 2)
yref = m_nGridY - yref;
int v = xref + (yref)*(m_nGridX+1);
m_indices_strip[nVert_strip++] = v;
}
}
}
// also generate triangle lists for drawing the main warp mesh.
int nVert_list = 0;
for (int quadrant=0; quadrant<4; quadrant++)
{
for (int slice=0; slice < m_nGridY/2; slice++)
{
for (int i=0; i < m_nGridX/2; i++)
{
// quadrants: 2 3
// 0 1
xref = i;
yref = slice;
if (quadrant & 1)
xref = m_nGridX-1 - xref;
if (quadrant & 2)
yref = m_nGridY-1 - yref;
int v = xref + (yref)*(m_nGridX+1);
m_indices_list[nVert_list++] = v;
m_indices_list[nVert_list++] = v +1;
m_indices_list[nVert_list++] = v+m_nGridX+1 ;
m_indices_list[nVert_list++] = v +1;
m_indices_list[nVert_list++] = v+m_nGridX+1 ;
m_indices_list[nVert_list++] = v+m_nGridX+1+1;
}
}
}
// GENERATED TEXTURES FOR SHADERS
//-------------------------------------
if (m_nMaxPSVersion > 0)
{
// Generate noise textures
if (!AddNoiseTex(L"noise_lq", 256, 1)) return false;
if (!AddNoiseTex(L"noise_lq_lite", 32, 1)) return false;
if (!AddNoiseTex(L"noise_mq", 256, 4)) return false;
if (!AddNoiseTex(L"noise_hq", 256, 8)) return false;
if (!AddNoiseVol(L"noisevol_lq", 32, 1)) return false;
if (!AddNoiseVol(L"noisevol_hq", 32, 4)) return false;
}
if (!m_bInitialPresetSelected)
{
UpdatePresetList(true); //...just does its initial burst!
LoadRandomPreset(0.0f);
m_bInitialPresetSelected = true;
}
else
LoadShaders(&m_shaders, m_pState, false); // Also force-load the shaders - otherwise they'd only get compiled on a preset switch.
return true;
}
float fCubicInterpolate(float y0, float y1, float y2, float y3, float t)
{
float a0,a1,a2,a3,t2;
t2 = t*t;
a0 = y3 - y2 - y0 + y1;
a1 = y0 - y1 - a0;
a2 = y2 - y0;
a3 = y1;
return(a0*t*t2+a1*t2+a2*t+a3);
}
DWORD dwCubicInterpolate(DWORD y0, DWORD y1, DWORD y2, DWORD y3, float t)
{
// performs cubic interpolation on a D3DCOLOR value.
DWORD ret = 0;
DWORD shift = 0;
for (int i=0; i<4; i++)
{
float f = fCubicInterpolate(
((y0 >> shift) & 0xFF)/255.0f,
((y1 >> shift) & 0xFF)/255.0f,
((y2 >> shift) & 0xFF)/255.0f,
((y3 >> shift) & 0xFF)/255.0f,
t
);
if (f<0)
f = 0;
if (f>1)
f = 1;
ret |= ((DWORD)(f*255)) << shift;
shift += 8;
}
return ret;
}
bool CPlugin::AddNoiseTex(const wchar_t* szTexName, int size, int zoom_factor)
{
// size = width & height of the texture;
// zoom_factor = how zoomed-in the texture features should be.
// 1 = random noise
// 2 = smoothed (interp)
// 4/8/16... = cubic interp.
wchar_t buf[2048], title[64];
// Synthesize noise texture(s)
LPDIRECT3DTEXTURE9 pNoiseTex = NULL;
// try twice - once with mips, once without.
for (int i=0; i<2; i++)
{
if (D3D_OK != GetDevice()->CreateTexture(size, size, i, D3DUSAGE_DYNAMIC | (i ? 0 : D3DUSAGE_AUTOGENMIPMAP), D3DFMT_A8R8G8B8, D3DPOOL_DEFAULT, &pNoiseTex, NULL))
{
if (i==1)
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_CREATE_NOISE_TEXTURE,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
}
else
break;
}
D3DLOCKED_RECT r;
if (D3D_OK != pNoiseTex->LockRect(0, &r, NULL, D3DLOCK_DISCARD))
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_LOCK_NOISE_TEXTURE,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
if (r.Pitch < size*4)
{
WASABI_API_LNGSTRINGW_BUF(IDS_NOISE_TEXTURE_BYTE_LAYOUT_NOT_RECOGNISED,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
// write to the bits...
DWORD* dst = (DWORD*)r.pBits;
int dwords_per_line = r.Pitch / sizeof(DWORD);
int RANGE = (zoom_factor > 1) ? 216 : 256;
for (int y=0; y<size; y++) {
LARGE_INTEGER q;
QueryPerformanceCounter(&q);
srand(q.LowPart ^ q.HighPart ^ warand());
int x = 0;
for (x=0; x<size; x++) {
dst[x] = (((DWORD)(warand() % RANGE)+RANGE/2) << 24) |
(((DWORD)(warand() % RANGE)+RANGE/2) << 16) |
(((DWORD)(warand() % RANGE)+RANGE/2) << 8) |
(((DWORD)(warand() % RANGE)+RANGE/2) );
}
// swap some pixels randomly, to improve 'randomness'
for (x=0; x<size; x++)
{
int x1 = (warand() ^ q.LowPart ) % size;
int x2 = (warand() ^ q.HighPart) % size;
DWORD temp = dst[x2];
dst[x2] = dst[x1];
dst[x1] = temp;
}
dst += dwords_per_line;
}
// smoothing
if (zoom_factor > 1)
{
// first go ACROSS, blending cubically on X, but only on the main lines.
DWORD* dst = (DWORD*)r.pBits;
for (int y=0; y<size; y+=zoom_factor)
for (int x=0; x<size; x++)
if (x % zoom_factor)
{
int base_x = (x/zoom_factor)*zoom_factor + size;
int base_y = y*dwords_per_line;
DWORD y0 = dst[ base_y + ((base_x - zoom_factor ) % size) ];
DWORD y1 = dst[ base_y + ((base_x ) % size) ];
DWORD y2 = dst[ base_y + ((base_x + zoom_factor ) % size) ];
DWORD y3 = dst[ base_y + ((base_x + zoom_factor*2) % size) ];
float t = (x % zoom_factor)/(float)zoom_factor;
DWORD result = dwCubicInterpolate(y0, y1, y2, y3, t);
dst[ y*dwords_per_line + x ] = result;
}
// next go down, doing cubic interp along Y, on every line.
for (int x=0; x<size; x++)
for (int y=0; y<size; y++)
if (y % zoom_factor)
{
int base_y = (y/zoom_factor)*zoom_factor + size;
DWORD y0 = dst[ ((base_y - zoom_factor ) % size)*dwords_per_line + x ];
DWORD y1 = dst[ ((base_y ) % size)*dwords_per_line + x ];
DWORD y2 = dst[ ((base_y + zoom_factor ) % size)*dwords_per_line + x ];
DWORD y3 = dst[ ((base_y + zoom_factor*2) % size)*dwords_per_line + x ];
float t = (y % zoom_factor)/(float)zoom_factor;
DWORD result = dwCubicInterpolate(y0, y1, y2, y3, t);
dst[ y*dwords_per_line + x ] = result;
}
}
// unlock texture
pNoiseTex->UnlockRect(0);
// add it to m_textures[].
TexInfo x;
lstrcpyW(x.texname, szTexName);
x.texptr = pNoiseTex;
//x.texsize_param = NULL;
x.w = size;
x.h = size;
x.d = 1;
x.bEvictable = false;
x.nAge = m_nPresetsLoadedTotal;
x.nSizeInBytes = 0;
m_textures.push_back(x);
return true;
}
bool CPlugin::AddNoiseVol(const wchar_t* szTexName, int size, int zoom_factor)
{
// size = width & height & depth of the texture;
// zoom_factor = how zoomed-in the texture features should be.
// 1 = random noise
// 2 = smoothed (interp)
// 4/8/16... = cubic interp.
wchar_t buf[2048], title[64];
// Synthesize noise texture(s)
LPDIRECT3DVOLUMETEXTURE9 pNoiseTex = NULL;
// try twice - once with mips, once without.
// NO, TRY JUST ONCE - DX9 doesn't do auto mipgen w/volume textures. (Debug runtime complains.)
for (int i=1; i<2; i++)
{
if (D3D_OK != GetDevice()->CreateVolumeTexture(size, size, size, i, D3DUSAGE_DYNAMIC | (i ? 0 : D3DUSAGE_AUTOGENMIPMAP), D3DFMT_A8R8G8B8, D3DPOOL_DEFAULT, &pNoiseTex, NULL))
{
if (i==1)
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_CREATE_3D_NOISE_TEXTURE,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
}
else
break;
}
D3DLOCKED_BOX r;
if (D3D_OK != pNoiseTex->LockBox(0, &r, NULL, D3DLOCK_DISCARD))
{
WASABI_API_LNGSTRINGW_BUF(IDS_COULD_NOT_LOCK_3D_NOISE_TEXTURE,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
if (r.RowPitch < size*4 || r.SlicePitch < size*size*4)
{
WASABI_API_LNGSTRINGW_BUF(IDS_3D_NOISE_TEXTURE_BYTE_LAYOUT_NOT_RECOGNISED,buf,sizeof(buf));
dumpmsg(buf);
MessageBoxW(GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
// write to the bits...
int dwords_per_slice = r.SlicePitch / sizeof(DWORD);
int dwords_per_line = r.RowPitch / sizeof(DWORD);
int RANGE = (zoom_factor > 1) ? 216 : 256;
for (int z=0; z<size; z++) {
DWORD* dst = (DWORD*)r.pBits + z*dwords_per_slice;
for (int y=0; y<size; y++) {
LARGE_INTEGER q;
QueryPerformanceCounter(&q);
srand(q.LowPart ^ q.HighPart ^ warand());
int x = 0;
for (x=0; x<size; x++) {
dst[x] = (((DWORD)(warand() % RANGE)+RANGE/2) << 24) |
(((DWORD)(warand() % RANGE)+RANGE/2) << 16) |
(((DWORD)(warand() % RANGE)+RANGE/2) << 8) |
(((DWORD)(warand() % RANGE)+RANGE/2) );
}
// swap some pixels randomly, to improve 'randomness'
for (x=0; x<size; x++)
{
int x1 = (warand() ^ q.LowPart ) % size;
int x2 = (warand() ^ q.HighPart) % size;
DWORD temp = dst[x2];
dst[x2] = dst[x1];
dst[x1] = temp;
}
dst += dwords_per_line;
}
}
// smoothing
if (zoom_factor > 1)
{
// first go ACROSS, blending cubically on X, but only on the main lines.
DWORD* dst = (DWORD*)r.pBits;
for (int z=0; z<size; z+=zoom_factor)
for (int y=0; y<size; y+=zoom_factor)
for (int x=0; x<size; x++)
if (x % zoom_factor)
{
int base_x = (x/zoom_factor)*zoom_factor + size;
int base_y = z*dwords_per_slice + y*dwords_per_line;
DWORD y0 = dst[ base_y + ((base_x - zoom_factor ) % size) ];
DWORD y1 = dst[ base_y + ((base_x ) % size) ];
DWORD y2 = dst[ base_y + ((base_x + zoom_factor ) % size) ];
DWORD y3 = dst[ base_y + ((base_x + zoom_factor*2) % size) ];
float t = (x % zoom_factor)/(float)zoom_factor;
DWORD result = dwCubicInterpolate(y0, y1, y2, y3, t);
dst[ z*dwords_per_slice + y*dwords_per_line + x ] = result;
}
// next go down, doing cubic interp along Y, on the main slices.
for (int z=0; z<size; z+=zoom_factor)
for (int x=0; x<size; x++)
for (int y=0; y<size; y++)
if (y % zoom_factor)
{
int base_y = (y/zoom_factor)*zoom_factor + size;
int base_z = z*dwords_per_slice;
DWORD y0 = dst[ ((base_y - zoom_factor ) % size)*dwords_per_line + base_z + x ];
DWORD y1 = dst[ ((base_y ) % size)*dwords_per_line + base_z + x ];
DWORD y2 = dst[ ((base_y + zoom_factor ) % size)*dwords_per_line + base_z + x ];
DWORD y3 = dst[ ((base_y + zoom_factor*2) % size)*dwords_per_line + base_z + x ];
float t = (y % zoom_factor)/(float)zoom_factor;
DWORD result = dwCubicInterpolate(y0, y1, y2, y3, t);
dst[ y*dwords_per_line + base_z + x ] = result;
}
// next go through, doing cubic interp along Z, everywhere.
for (int x=0; x<size; x++)
for (int y=0; y<size; y++)
for (int z=0; z<size; z++)
if (z % zoom_factor)
{
int base_y = y*dwords_per_line;
int base_z = (z/zoom_factor)*zoom_factor + size;
DWORD y0 = dst[ ((base_z - zoom_factor ) % size)*dwords_per_slice + base_y + x ];
DWORD y1 = dst[ ((base_z ) % size)*dwords_per_slice + base_y + x ];
DWORD y2 = dst[ ((base_z + zoom_factor ) % size)*dwords_per_slice + base_y + x ];
DWORD y3 = dst[ ((base_z + zoom_factor*2) % size)*dwords_per_slice + base_y + x ];
float t = (z % zoom_factor)/(float)zoom_factor;
DWORD result = dwCubicInterpolate(y0, y1, y2, y3, t);
dst[ z*dwords_per_slice + base_y + x ] = result;
}
}
// unlock texture
pNoiseTex->UnlockBox(0);
// add it to m_textures[].
TexInfo x;
lstrcpyW(x.texname, szTexName);
x.texptr = pNoiseTex;
//x.texsize_param = NULL;
x.w = size;
x.h = size;
x.d = size;
x.bEvictable = false;
x.nAge = m_nPresetsLoadedTotal;
x.nSizeInBytes = 0;
m_textures.push_back(x);
return true;
}
void VShaderInfo::Clear()
{
SafeRelease(ptr);
SafeRelease(CT);
params.Clear();
}
void PShaderInfo::Clear()
{
SafeRelease(ptr);
SafeRelease(CT);
params.Clear();
}
// global_CShaderParams_master_list: a master list of all CShaderParams classes in existence.
// ** when we evict a texture, we need to NULL out any texptrs these guys have! **
CShaderParamsList global_CShaderParams_master_list;
CShaderParams::CShaderParams() {
global_CShaderParams_master_list.push_back(this);
}
CShaderParams::~CShaderParams() {
int N = global_CShaderParams_master_list.size();
for (int i=0; i<N; i++)
if (global_CShaderParams_master_list[i] == this)
{
global_CShaderParams_master_list.erase(global_CShaderParams_master_list.begin() + i);
break;
}
texsize_params.clear();
}
void CShaderParams::OnTextureEvict(LPDIRECT3DBASETEXTURE9 texptr)
{
for (int i=0; i<sizeof(m_texture_bindings)/sizeof(m_texture_bindings[0]); i++)
if (m_texture_bindings[i].texptr == texptr)
m_texture_bindings[i].texptr = NULL;
}
void CShaderParams::Clear()
{
// float4 handles:
rand_frame = NULL;
rand_preset = NULL;
ZeroMemory(rot_mat, sizeof(rot_mat));
ZeroMemory(const_handles, sizeof(const_handles));
ZeroMemory(q_const_handles, sizeof(q_const_handles));
texsize_params.clear();
// sampler stages for various PS texture bindings:
for (int i=0; i<sizeof(m_texture_bindings)/sizeof(m_texture_bindings[0]); i++)
{
m_texture_bindings[i].texptr = NULL;
m_texcode[i] = TEX_DISK;
}
}
bool CPlugin::EvictSomeTexture()
{
// note: this won't evict a texture whose age is zero,
// or whose reported size is zero!
#if _DEBUG
{
int nEvictableFiles = 0;
int nEvictableBytes = 0;
int N = m_textures.size();
for (int i=0; i<N; i++)
if (m_textures[i].bEvictable && m_textures[i].texptr)
{
nEvictableFiles++;
nEvictableBytes += m_textures[i].nSizeInBytes;
}
char buf[1024];
sprintf(buf, "evicting at %d textures, %.1f MB\n", nEvictableFiles, nEvictableBytes*0.000001f);
OutputDebugString(buf);
}
#endif
int N = m_textures.size();
// find age gap
int newest = 99999999;
int oldest = 0;
bool bAtLeastOneFound = false;
int i = 0;
for (i=0; i<N; i++)
if (m_textures[i].bEvictable && m_textures[i].nSizeInBytes>0 && m_textures[i].nAge < m_nPresetsLoadedTotal-1) // note: -1 here keeps images around for the blend-from preset, too...
{
newest = min(newest, m_textures[i].nAge);
oldest = max(oldest, m_textures[i].nAge);
bAtLeastOneFound = true;
}
if (!bAtLeastOneFound)
return false;
// find the "biggest" texture, but dilate things so that the newest textures
// are HALF as big as the oldest textures, and thus, less likely to get booted.
int biggest_bytes = 0;
int biggest_index = -1;
for (i=0; i<N; i++)
if (m_textures[i].bEvictable && m_textures[i].nSizeInBytes>0 && m_textures[i].nAge < m_nPresetsLoadedTotal-1) // note: -1 here keeps images around for the blend-from preset, too...
{
float size_mult = 1.0f + (m_textures[i].nAge - newest)/(float)(oldest-newest);
int bytes = (int)(m_textures[i].nSizeInBytes * size_mult);
if (bytes > biggest_bytes)
{
biggest_bytes = bytes;
biggest_index = i;
}
}
if (biggest_index == -1)
return false;
// evict that sucker
assert(m_textures[biggest_index].texptr);
// notify all CShaderParams classes that we're releasing a bindable texture!!
N = global_CShaderParams_master_list.size();
for (i=0; i<N; i++)
global_CShaderParams_master_list[i]->OnTextureEvict( m_textures[biggest_index].texptr );
// 2. erase the texture itself
SafeRelease(m_textures[biggest_index].texptr);
m_textures.erase(m_textures.begin() + biggest_index);
return true;
}
GString texture_exts[] = { L"jpg", L"dds", L"png", L"tga", L"bmp", L"dib", };
const wchar_t szExtsWithSlashes[] = L"jpg|png|dds|etc.";
typedef std::vector<GString> StringVec;
bool PickRandomTexture(const wchar_t* prefix, wchar_t* szRetTextureFilename) //should be MAX_PATH chars
{
static StringVec texfiles;
static DWORD texfiles_timestamp = 0; // update this a max of every ~2 seconds or so
// if it's been more than a few seconds since the last textures dir scan, redo it.
// (..just enough to make sure we don't do it more than once per preset load)
//DWORD t = timeGetTime(); // in milliseconds
//if (abs(t - texfiles_timestamp) > 2000)
if (g_plugin.m_bNeedRescanTexturesDir)
{
g_plugin.m_bNeedRescanTexturesDir = false;//texfiles_timestamp = t;
texfiles.clear();
wchar_t szMask[MAX_PATH];
swprintf(szMask, L"%stextures\\*.*", g_plugin.m_szMilkdrop2Path);
WIN32_FIND_DATAW ffd = {0};
HANDLE hFindFile = INVALID_HANDLE_VALUE;
if( (hFindFile = FindFirstFileW(szMask, &ffd )) == INVALID_HANDLE_VALUE ) // note: returns filename -without- path
return false;
// first, count valid texture files
do
{
if (ffd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
continue;
wchar_t* ext = wcsrchr(ffd.cFileName, L'.');
if (!ext)
continue;
for (int i=0; i<sizeof(texture_exts)/sizeof(texture_exts[0]); i++)
if (!wcsicmp(texture_exts[i].c_str(), ext+1))
{
// valid texture found - add it to the list. ("heart.jpg", for example)
texfiles.push_back( ffd.cFileName );
continue;
}
}
while (FindNextFileW(hFindFile, &ffd));
FindClose(hFindFile);
}
if (texfiles.size() == 0)
return false;
// then randomly pick one
if (prefix==NULL || prefix[0]==0)
{
// pick randomly from entire list
int i = warand() % texfiles.size();
lstrcpyW(szRetTextureFilename, texfiles[i].c_str());
}
else
{
// only pick from files w/the right prefix
StringVec temp_list;
int N = texfiles.size();
int len = lstrlenW(prefix);
for (int i=0; i<N; i++)
if (!_wcsnicmp(prefix, texfiles[i].c_str(), len))
temp_list.push_back(texfiles[i]);
N = temp_list.size();
if (N==0)
return false;
// pick randomly from the subset
int i = warand() % temp_list.size();
lstrcpyW(szRetTextureFilename, temp_list[i].c_str());
}
return true;
}
void CShaderParams::CacheParams(LPD3DXCONSTANTTABLE pCT, bool bHardErrors)
{
Clear();
if (!pCT)
return;
D3DXCONSTANTTABLE_DESC d;
pCT->GetDesc(&d);
D3DXCONSTANT_DESC cd;
#define MAX_RAND_TEX 16
GString RandTexName[MAX_RAND_TEX];
// pass 1: find all the samplers (and texture bindings).
UINT i = 0;
for (i=0; i<d.Constants; i++)
{
D3DXHANDLE h = pCT->GetConstant(NULL, i);
unsigned int count = 1;
pCT->GetConstantDesc(h, &cd, &count);
// cd.Name = VS_Sampler
// cd.RegisterSet = D3DXRS_SAMPLER
// cd.RegisterIndex = 3
if (cd.RegisterSet == D3DXRS_SAMPLER && cd.RegisterIndex >= 0 && cd.RegisterIndex < sizeof(m_texture_bindings)/sizeof(m_texture_bindings[0]))
{
assert(m_texture_bindings[cd.RegisterIndex].texptr == NULL);
// remove "sampler_" prefix to create root file name. could still have "FW_" prefix or something like that.
wchar_t szRootName[MAX_PATH];
if (!strncmp(cd.Name, "sampler_", 8))
lstrcpyW(szRootName, AutoWide(&cd.Name[8]));
else
lstrcpyW(szRootName, AutoWide(cd.Name));
// also peel off "XY_" prefix, if it's there, to specify filtering & wrap mode.
bool bBilinear = true;
bool bWrap = true;
bool bWrapFilterSpecified = false;
if (lstrlenW(szRootName) > 3 && szRootName[2]==L'_')
{
wchar_t temp[3];
temp[0] = szRootName[0];
temp[1] = szRootName[1];
temp[2] = 0;
// convert to uppercase
if (temp[0] >= L'a' && temp[0] <= L'z')
temp[0] -= L'a' - L'A';
if (temp[1] >= L'a' && temp[1] <= L'z')
temp[1] -= L'a' - L'A';
if (!wcscmp(temp, L"FW")) { bWrapFilterSpecified = true; bBilinear = true; bWrap = true; }
else if (!wcscmp(temp, L"FC")) { bWrapFilterSpecified = true; bBilinear = true; bWrap = false; }
else if (!wcscmp(temp, L"PW")) { bWrapFilterSpecified = true; bBilinear = false; bWrap = true; }
else if (!wcscmp(temp, L"PC")) { bWrapFilterSpecified = true; bBilinear = false; bWrap = false; }
// also allow reverses:
else if (!wcscmp(temp, L"WF")) { bWrapFilterSpecified = true; bBilinear = true; bWrap = true; }
else if (!wcscmp(temp, L"CF")) { bWrapFilterSpecified = true; bBilinear = true; bWrap = false; }
else if (!wcscmp(temp, L"WP")) { bWrapFilterSpecified = true; bBilinear = false; bWrap = true; }
else if (!wcscmp(temp, L"CP")) { bWrapFilterSpecified = true; bBilinear = false; bWrap = false; }
// peel off the prefix
int i = 0;
while (szRootName[i+3])
{
szRootName[i] = szRootName[i+3];
i++;
}
szRootName[i] = 0;
}
m_texture_bindings[ cd.RegisterIndex ].bWrap = bWrap;
m_texture_bindings[ cd.RegisterIndex ].bBilinear = bBilinear;
// if <szFileName> is "main", map it to the VS...
if (!wcscmp(L"main", szRootName))
{
m_texture_bindings[ cd.RegisterIndex ].texptr = NULL;
m_texcode[ cd.RegisterIndex ] = TEX_VS;
}
#if (NUM_BLUR_TEX >= 2)
else if (!wcscmp(L"blur1", szRootName))
{
m_texture_bindings[ cd.RegisterIndex ].texptr = g_plugin.m_lpBlur[1];
m_texcode [ cd.RegisterIndex ] = TEX_BLUR1;
if (!bWrapFilterSpecified) { // when sampling blur textures, default is CLAMP
m_texture_bindings[ cd.RegisterIndex ].bWrap = false;
m_texture_bindings[ cd.RegisterIndex ].bBilinear = true;
}
}
#endif
#if (NUM_BLUR_TEX >= 4)
else if (!wcscmp(L"blur2", szRootName))
{
m_texture_bindings[ cd.RegisterIndex ].texptr = g_plugin.m_lpBlur[3];
m_texcode [ cd.RegisterIndex ] = TEX_BLUR2;
if (!bWrapFilterSpecified) { // when sampling blur textures, default is CLAMP
m_texture_bindings[ cd.RegisterIndex ].bWrap = false;
m_texture_bindings[ cd.RegisterIndex ].bBilinear = true;
}
}
#endif
#if (NUM_BLUR_TEX >= 6)
else if (!wcscmp(L"blur3", szRootName))
{
m_texture_bindings[ cd.RegisterIndex ].texptr = g_plugin.m_lpBlur[5];
m_texcode [ cd.RegisterIndex ] = TEX_BLUR3;
if (!bWrapFilterSpecified) { // when sampling blur textures, default is CLAMP
m_texture_bindings[ cd.RegisterIndex ].bWrap = false;
m_texture_bindings[ cd.RegisterIndex ].bBilinear = true;
}
}
#endif
#if (NUM_BLUR_TEX >= 8)
else if (!wcscmp("blur4", szRootName))
{
m_texture_bindings[ cd.RegisterIndex ].texptr = g_plugin.m_lpBlur[7];
m_texcode [ cd.RegisterIndex ] = TEX_BLUR4;
if (!bWrapFilterSpecified) { // when sampling blur textures, default is CLAMP
m_texture_bindings[ cd.RegisterIndex ].bWrap = false;
m_texture_bindings[ cd.RegisterIndex ].bBilinear = true;
}
}
#endif
#if (NUM_BLUR_TEX >= 10)
else if (!wcscmp("blur5", szRootName))
{
m_texture_bindings[ cd.RegisterIndex ].texptr = g_plugin.m_lpBlur[9];
m_texcode [ cd.RegisterIndex ] = TEX_BLUR5;
if (!bWrapFilterSpecified) { // when sampling blur textures, default is CLAMP
m_texture_bindings[ cd.RegisterIndex ].bWrap = false;
m_texture_bindings[ cd.RegisterIndex ].bBilinear = true;
}
}
#endif
#if (NUM_BLUR_TEX >= 12)
else if (!wcscmp("blur6", szRootName))
{
m_texture_bindings[ cd.RegisterIndex ].texptr = g_plugin.m_lpBlur[11];
m_texcode [ cd.RegisterIndex ] = TEX_BLUR6;
if (!bWrapFilterSpecified) { // when sampling blur textures, default is CLAMP
m_texture_bindings[ cd.RegisterIndex ].bWrap = false;
m_texture_bindings[ cd.RegisterIndex ].bBilinear = true;
}
}
#endif
else
{
m_texcode[ cd.RegisterIndex ] = TEX_DISK;
// check for request for random texture.
if (!wcsncmp(L"rand", szRootName, 4) &&
IsNumericChar(szRootName[4]) &&
IsNumericChar(szRootName[5]) &&
(szRootName[6]==0 || szRootName[6]=='_') )
{
int rand_slot = -1;
// peel off filename prefix ("rand13_smalltiled", for example)
wchar_t prefix[MAX_PATH];
if (szRootName[6]==L'_')
lstrcpyW(prefix, &szRootName[7]);
else
prefix[0] = 0;
szRootName[6] = 0;
swscanf(&szRootName[4], L"%d", &rand_slot);
if (rand_slot >= 0 && rand_slot <= 15) // otherwise, not a special filename - ignore it
{
if (!PickRandomTexture(prefix, szRootName))
{
if (prefix[0])
swprintf(szRootName, L"[rand%02d] %s*", rand_slot, prefix);
else
swprintf(szRootName, L"[rand%02d] *", rand_slot);
}
else
{
//chop off extension
wchar_t *p = wcsrchr(szRootName, L'.');
if (p)
*p = 0;
}
assert(RandTexName[rand_slot].GetLength() == 0);
RandTexName[rand_slot] = szRootName; // we'll need to remember this for texsize_ params!
}
}
// see if <szRootName>.tga or .jpg has already been loaded.
// (if so, grab a pointer to it)
// (if NOT, create & load it).
int N = g_plugin.m_textures.size();
for (int n=0; n<N; n++) {
if (!wcscmp(g_plugin.m_textures[n].texname, szRootName))
{
// found a match - texture was already loaded
m_texture_bindings[ cd.RegisterIndex ].texptr = g_plugin.m_textures[n].texptr;
// also bump its age down to zero! (for cache mgmt)
g_plugin.m_textures[n].nAge = g_plugin.m_nPresetsLoadedTotal;
break;
}
}
// if still not found, load it up / make a new texture
if (!m_texture_bindings[ cd.RegisterIndex ].texptr)
{
TexInfo x;
wcsncpy(x.texname, szRootName, 254);
x.texptr = NULL;
//x.texsize_param = NULL;
// check if we need to evict anything from the cache,
// due to our own cache constraints...
while (1)
{
int nTexturesCached = 0;
int nBytesCached = 0;
int N = g_plugin.m_textures.size();
for (int i=0; i<N; i++)
if (g_plugin.m_textures[i].bEvictable && g_plugin.m_textures[i].texptr)
{
nBytesCached += g_plugin.m_textures[i].nSizeInBytes;
nTexturesCached++;
}
if ( nTexturesCached < g_plugin.m_nMaxImages &&
nBytesCached < g_plugin.m_nMaxBytes )
break;
// otherwise, evict now - and loop until we are within the constraints
if (!g_plugin.EvictSomeTexture())
break; // or if there was nothing to evict, just give up
}
//load the texture
wchar_t szFilename[MAX_PATH];
for (int z=0; z<sizeof(texture_exts)/sizeof(texture_exts[0]); z++)
{
swprintf(szFilename, L"%stextures\\%s.%s", g_plugin.m_szMilkdrop2Path, szRootName, texture_exts[z].c_str());
if (GetFileAttributesW(szFilename) == 0xFFFFFFFF)
{
// try again, but in presets dir
swprintf(szFilename, L"%s%s.%s", g_plugin.m_szPresetDir, szRootName, texture_exts[z].c_str());
if (GetFileAttributesW(szFilename) == 0xFFFFFFFF)
continue;
}
D3DXIMAGE_INFO desc;
// keep trying to load it - if it fails due to memory, evict something and try again.
while (1)
{
HRESULT hr = pCreateTextureFromFileExW(g_plugin.GetDevice(),
szFilename,
D3DX_DEFAULT_NONPOW2, // w
D3DX_DEFAULT_NONPOW2, // h
D3DX_DEFAULT, // # mip levels to gen - all
0, // usage flags
D3DFMT_UNKNOWN,
D3DPOOL_DEFAULT,
D3DX_DEFAULT, //filter
D3DX_DEFAULT, //mipfilter
0, // color key
&desc,
NULL, //palette
(IDirect3DTexture9**)&x.texptr
);
if (hr==D3DERR_OUTOFVIDEOMEMORY || hr==E_OUTOFMEMORY)
{
// out of memory - try evicting something old and/or big
if (g_plugin.EvictSomeTexture())
continue;
}
if (hr==D3D_OK)
{
x.w = desc.Width;
x.h = desc.Height;
x.d = desc.Depth;
x.bEvictable = true;
x.nAge = g_plugin.m_nPresetsLoadedTotal;
int nPixels = desc.Width*desc.Height*max(1,desc.Depth);
int BitsPerPixel = GetDX9TexFormatBitsPerPixel(desc.Format);
x.nSizeInBytes = nPixels*BitsPerPixel/8 + 16384; //plus some overhead
}
break;
}
}
if (!x.texptr)
{
wchar_t buf[2048], title[64];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_COULD_NOT_LOAD_TEXTURE_X), szRootName, szExtsWithSlashes);
g_plugin.dumpmsg(buf);
if (bHardErrors)
MessageBoxW(g_plugin.GetPluginWindow(), buf, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
else {
g_plugin.AddError(buf, 6.0f, ERR_PRESET, true);
}
return;
}
g_plugin.m_textures.push_back(x);
m_texture_bindings[ cd.RegisterIndex ].texptr = x.texptr;
}
}
}
}
// pass 2: bind all the float4's. "texsize_XYZ" params will be filled out via knowledge of loaded texture sizes.
for (i=0; i<d.Constants; i++)
{
D3DXHANDLE h = pCT->GetConstant(NULL, i);
unsigned int count = 1;
pCT->GetConstantDesc(h, &cd, &count);
if (cd.RegisterSet == D3DXRS_FLOAT4)
{
if (cd.Class == D3DXPC_MATRIX_COLUMNS)
{
if (!strcmp(cd.Name, "rot_s1" )) rot_mat[0] = h;
else if (!strcmp(cd.Name, "rot_s2" )) rot_mat[1] = h;
else if (!strcmp(cd.Name, "rot_s3" )) rot_mat[2] = h;
else if (!strcmp(cd.Name, "rot_s4" )) rot_mat[3] = h;
else if (!strcmp(cd.Name, "rot_d1" )) rot_mat[4] = h;
else if (!strcmp(cd.Name, "rot_d2" )) rot_mat[5] = h;
else if (!strcmp(cd.Name, "rot_d3" )) rot_mat[6] = h;
else if (!strcmp(cd.Name, "rot_d4" )) rot_mat[7] = h;
else if (!strcmp(cd.Name, "rot_f1" )) rot_mat[8] = h;
else if (!strcmp(cd.Name, "rot_f2" )) rot_mat[9] = h;
else if (!strcmp(cd.Name, "rot_f3" )) rot_mat[10] = h;
else if (!strcmp(cd.Name, "rot_f4" )) rot_mat[11] = h;
else if (!strcmp(cd.Name, "rot_vf1")) rot_mat[12] = h;
else if (!strcmp(cd.Name, "rot_vf2")) rot_mat[13] = h;
else if (!strcmp(cd.Name, "rot_vf3")) rot_mat[14] = h;
else if (!strcmp(cd.Name, "rot_vf4")) rot_mat[15] = h;
else if (!strcmp(cd.Name, "rot_uf1")) rot_mat[16] = h;
else if (!strcmp(cd.Name, "rot_uf2")) rot_mat[17] = h;
else if (!strcmp(cd.Name, "rot_uf3")) rot_mat[18] = h;
else if (!strcmp(cd.Name, "rot_uf4")) rot_mat[19] = h;
else if (!strcmp(cd.Name, "rot_rand1")) rot_mat[20] = h;
else if (!strcmp(cd.Name, "rot_rand2")) rot_mat[21] = h;
else if (!strcmp(cd.Name, "rot_rand3")) rot_mat[22] = h;
else if (!strcmp(cd.Name, "rot_rand4")) rot_mat[23] = h;
}
else if (cd.Class == D3DXPC_VECTOR)
{
if (!strcmp(cd.Name, "rand_frame")) rand_frame = h;
else if (!strcmp(cd.Name, "rand_preset")) rand_preset = h;
else if (!strncmp(cd.Name, "texsize_", 8))
{
// remove "texsize_" prefix to find root file name.
wchar_t szRootName[MAX_PATH];
if (!strncmp(cd.Name, "texsize_", 8))
lstrcpyW(szRootName, AutoWide(&cd.Name[8]));
else
lstrcpyW(szRootName, AutoWide(cd.Name));
// check for request for random texture.
// it should be a previously-seen random index - just fetch/reuse the name.
if (!wcsncmp(L"rand", szRootName, 4) &&
IsNumericChar(szRootName[4]) &&
IsNumericChar(szRootName[5]) &&
(szRootName[6]==0 || szRootName[6]==L'_') )
{
int rand_slot = -1;
// ditch filename prefix ("rand13_smalltiled", for example)
// and just go by the slot
if (szRootName[6]==L'_')
szRootName[6] = 0;
swscanf(&szRootName[4], L"%d", &rand_slot);
if (rand_slot >= 0 && rand_slot <= 15) // otherwise, not a special filename - ignore it
if (RandTexName[rand_slot].GetLength() > 0)
lstrcpyW(szRootName, RandTexName[rand_slot].c_str());
}
// see if <szRootName>.tga or .jpg has already been loaded.
bool bTexFound = false;
int N = g_plugin.m_textures.size();
for (int n=0; n<N; n++) {
if (!wcscmp(g_plugin.m_textures[n].texname, szRootName))
{
// found a match - texture was loaded
TexSizeParamInfo y;
y.texname = szRootName; //for debugging
y.texsize_param = h;
y.w = g_plugin.m_textures[n].w;
y.h = g_plugin.m_textures[n].h;
texsize_params.push_back(y);
bTexFound = true;
break;
}
}
if (!bTexFound)
{
wchar_t buf[1024];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_UNABLE_TO_RESOLVE_TEXSIZE_FOR_A_TEXTURE_NOT_IN_USE), cd.Name);
g_plugin.AddError(buf, 6.0f, ERR_PRESET, true);
}
}
else if (cd.Name[0] == '_' && cd.Name[1] == 'c')
{
int z;
if (sscanf(&cd.Name[2], "%d", &z)==1)
if (z >= 0 && z < sizeof(const_handles)/sizeof(const_handles[0]))
const_handles[z] = h;
}
else if (cd.Name[0] == '_' && cd.Name[1] == 'q')
{
int z = cd.Name[2] - 'a';
if (z >= 0 && z < sizeof(q_const_handles)/sizeof(q_const_handles[0]))
q_const_handles[z] = h;
}
}
}
}
}
//----------------------------------------------------------------------
bool CPlugin::RecompileVShader(const char* szShadersText, VShaderInfo *si, int shaderType, bool bHardErrors)
{
SafeRelease(si->ptr);
ZeroMemory(si, sizeof(VShaderInfo));
// LOAD SHADER
if (!LoadShaderFromMemory( szShadersText, "VS", "vs_1_1", &si->CT, (void**)&si->ptr, shaderType, bHardErrors && (GetScreenMode()==WINDOWED)))
return false;
// Track down texture & float4 param bindings for this shader.
// Also loads any textures that need loaded.
si->params.CacheParams(si->CT, bHardErrors);
return true;
}
bool CPlugin::RecompilePShader(const char* szShadersText, PShaderInfo *si, int shaderType, bool bHardErrors, int PSVersion)
{
assert(m_nMaxPSVersion > 0);
SafeRelease(si->ptr);
ZeroMemory(si, sizeof(PShaderInfo));
// LOAD SHADER
// note: ps_1_4 required for dependent texture lookups.
// ps_2_0 required for tex2Dbias.
char ver[16];
lstrcpy(ver, "ps_0_0");
switch(PSVersion) {
case MD2_PS_NONE:
// Even though the PRESET doesn't use shaders, if MilkDrop is running where it CAN do shaders,
// we run all the old presets through (shader) emulation.
// This way, during a MilkDrop session, we are always calling either WarpedBlit() or WarpedBlit_NoPixelShaders(),
// and blending always works.
lstrcpy(ver, "ps_2_0");
break;
case MD2_PS_2_0: lstrcpy(ver, "ps_2_0"); break;
case MD2_PS_2_X: lstrcpy(ver, "ps_2_a"); break; // we'll try ps_2_a first, LoadShaderFromMemory will try ps_2_b if compilation fails
case MD2_PS_3_0: lstrcpy(ver, "ps_3_0"); break;
case MD2_PS_4_0: lstrcpy(ver, "ps_4_0"); break;
default: assert(0); break;
}
if (!LoadShaderFromMemory( szShadersText, "PS", ver, &si->CT, (void**)&si->ptr, shaderType, bHardErrors && (GetScreenMode()==WINDOWED)))
return false;
// Track down texture & float4 param bindings for this shader.
// Also loads any textures that need loaded.
si->params.CacheParams(si->CT, bHardErrors);
return true;
}
bool CPlugin::LoadShaders(PShaderSet* sh, CState* pState, bool bTick)
{
if (m_nMaxPSVersion <= 0)
return true;
// load one of the pixel shaders
if (!sh->warp.ptr && pState->m_nWarpPSVersion > 0)
{
bool bOK = RecompilePShader(pState->m_szWarpShadersText, &sh->warp, SHADER_WARP, false, pState->m_nWarpPSVersion);
if (!bOK)
{
// switch to fallback shader
m_fallbackShaders_ps.warp.ptr->AddRef();
m_fallbackShaders_ps.warp.CT->AddRef();
memcpy(&sh->warp, &m_fallbackShaders_ps.warp, sizeof(PShaderInfo));
// cancel any slow-preset-load
//m_nLoadingPreset = 1000;
}
if (bTick)
return true;
}
if (!sh->comp.ptr && pState->m_nCompPSVersion > 0)
{
bool bOK = RecompilePShader(pState->m_szCompShadersText, &sh->comp, SHADER_COMP, false, pState->m_nCompPSVersion);
if (!bOK)
{
// switch to fallback shader
m_fallbackShaders_ps.comp.ptr->AddRef();
m_fallbackShaders_ps.comp.CT->AddRef();
memcpy(&sh->comp, &m_fallbackShaders_ps.comp, sizeof(PShaderInfo));
// cancel any slow-preset-load
//m_nLoadingPreset = 1000;
}
}
return true;
}
//----------------------------------------------------------------------
/*
bool CPlugin::LoadShaderFromFile( char* szFile, char* szFn, char* szProfile,
LPD3DXCONSTANTTABLE* ppConstTable, void** ppShader )
{
LPD3DXBUFFER pShaderByteCode;
char buf[32768];
if (D3D_OK != D3DXCompileShaderFromFile(
szFile,
NULL,//CONST D3DXMACRO* pDefines,
NULL,//LPD3DXINCLUDE pInclude,
szFn,
szProfile,
m_dwShaderFlags,
&pShaderByteCode,
&m_pShaderCompileErrors,
ppConstTable
))
{
sprintf(buf, "error compiling shader:\n");
lstrcat(buf, szFile);
if (m_pShaderCompileErrors->GetBufferSize() < sizeof(buf) - 256)
{
lstrcat(buf, "\n\n");
lstrcat(buf, (const char *)(m_pShaderCompileErrors->GetBufferPointer()));
}
dumpmsg(buf);
MessageBox(GetPluginWindow(), buf, "MILKDROP ERROR", MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
HRESULT hr = 1;
if (szProfile[0] == 'v')
hr = GetDevice()->CreateVertexShader((const unsigned long *)(pShaderByteCode->GetBufferPointer()), (IDirect3DVertexShader9**)ppShader);
else if (szProfile[0] == 'p')
hr = GetDevice()->CreatePixelShader((const unsigned long *)(pShaderByteCode->GetBufferPointer()), (IDirect3DPixelShader9**)ppShader);
if (hr != D3D_OK)
{
sprintf(buf, "error creating shader:\n");
lstrcat(buf, szFile);
dumpmsg(buf);
MessageBox(GetPluginWindow(), buf, "MILKDROP ERROR", MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
return false;
}
pShaderByteCode->Release();
return true;
}
*/
bool CPlugin::LoadShaderFromMemory( const char* szOrigShaderText, char* szFn, char* szProfile,
LPD3DXCONSTANTTABLE* ppConstTable, void** ppShader, int shaderType, bool bHardErrors )
{
const char szWarpDefines[] = "#define rad _rad_ang.x\n"
"#define ang _rad_ang.y\n"
"#define uv _uv.xy\n"
"#define uv_orig _uv.zw\n";
const char szCompDefines[] = "#define rad _rad_ang.x\n"
"#define ang _rad_ang.y\n"
"#define uv _uv.xy\n"
"#define uv_orig _uv.xy\n" //[sic]
"#define hue_shader _vDiffuse.xyz\n";
const char szWarpParams[] = "float4 _vDiffuse : COLOR, float4 _uv : TEXCOORD0, float2 _rad_ang : TEXCOORD1, out float4 _return_value : COLOR0";
const char szCompParams[] = "float4 _vDiffuse : COLOR, float2 _uv : TEXCOORD0, float2 _rad_ang : TEXCOORD1, out float4 _return_value : COLOR0";
const char szFirstLine[] = " float3 ret = 0;";
const char szLastLine[] = " _return_value = float4(ret.xyz, _vDiffuse.w);";
char szWhichShader[64];
switch(shaderType)
{
case SHADER_WARP: lstrcpy(szWhichShader, "warp"); break;
case SHADER_COMP: lstrcpy(szWhichShader, "composite"); break;
case SHADER_BLUR: lstrcpy(szWhichShader, "blur"); break;
case SHADER_OTHER: lstrcpy(szWhichShader, "(other)"); break;
default: lstrcpy(szWhichShader, "(unknown)"); break;
}
LPD3DXBUFFER pShaderByteCode;
wchar_t title[64];
*ppShader = NULL;
*ppConstTable = NULL;
char szShaderText[128000];
char temp[128000];
int writePos = 0;
// paste the universal #include
lstrcpy(&szShaderText[writePos], m_szShaderIncludeText); // first, paste in the contents of 'inputs.fx' before the actual shader text. Has 13's and 10's.
writePos += m_nShaderIncludeTextLen;
// paste in any custom #defines for this shader type
if (shaderType == SHADER_WARP && szProfile[0]=='p')
{
lstrcpy(&szShaderText[writePos], szWarpDefines);
writePos += lstrlen(szWarpDefines);
}
else if (shaderType == SHADER_COMP && szProfile[0]=='p')
{
lstrcpy(&szShaderText[writePos], szCompDefines);
writePos += lstrlen(szCompDefines);
}
// paste in the shader itself - converting LCC's to 13+10's.
// avoid lstrcpy b/c it might not handle the linefeed stuff...?
int shaderStartPos = writePos;
{
const char *s = szOrigShaderText;
char *d = &szShaderText[writePos];
while (*s)
{
if (*s == LINEFEED_CONTROL_CHAR)
{
*d++ = 13; writePos++;
*d++ = 10; writePos++;
}
else
{
*d++ = *s; writePos++;
}
s++;
}
*d = 0; writePos++;
}
// strip out all comments - but cheat a little - start at the shader test.
// (the include file was already stripped of comments)
StripComments(&szShaderText[shaderStartPos]);
/*{
char* p = szShaderText;
while (*p)
{
char buf[32];
buf[0] = *p;
buf[1] = 0;
OutputDebugString(buf);
if ((rand() % 9) == 0)
Sleep(1);
p++;
}
OutputDebugString("\n");
}/**/
//note: only do this stuff if type is WARP or COMP shader... not for blur, etc!
//FIXME - hints on the inputs / output / samplers etc.
// can go in the menu header, NOT the preset! =)
//then update presets
// -> be sure to update the presets on disk AND THE DEFAULT SHADERS (for loading MD1 presets)
//FIXME - then update auth. guide w/new examples,
// and a list of the invisible inputs (and one output) to each shader!
// warp: float2 uv, float2 uv_orig, rad, ang
// comp: float2 uv, rad, ang, float3 hue_shader
// test all this string code in Debug mode - make sure nothing bad is happening
/*
1. paste warp or comp #defines
2. search for "void" + whitespace + szFn + [whitespace] + '('
3. insert params
4. search for [whitespace] + ')'.
5. search for final '}' (strrchr)
6. back up one char, insert the Last Line, and add '}' and that's it.
*/
if ((shaderType == SHADER_WARP || shaderType == SHADER_COMP) && szProfile[0]=='p')
{
char* p = &szShaderText[shaderStartPos];
// seek to 'shader_body' and replace it with spaces
while (*p && strncmp(p, "shader_body", 11))
p++;
if (p)
{
for (int i=0; i<11; i++)
*p++ = ' ';
}
if (p)
{
// insert "void PS(...params...)\n"
lstrcpy(temp, p);
const char *params = (shaderType==SHADER_WARP) ? szWarpParams : szCompParams;
sprintf(p, "void %s( %s )\n", szFn, params);
p += lstrlen(p);
lstrcpy(p, temp);
// find the starting curly brace
p = strchr(p, '{');
if (p)
{
// skip over it
p++;
// then insert "float3 ret = 0;"
lstrcpy(temp, p);
sprintf(p, "%s\n", szFirstLine);
p += lstrlen(p);
lstrcpy(p, temp);
// find the ending curly brace
p = strrchr(p, '}');
// add the last line - " _return_value = float4(ret.xyz, _vDiffuse.w);"
if (p)
sprintf(p, " %s\n}\n", szLastLine);
}
}
if (!p)
{
wchar_t temp[512];
swprintf(temp, WASABI_API_LNGSTRINGW(IDS_ERROR_PARSING_X_X_SHADER), szProfile, szWhichShader);
dumpmsg(temp);
AddError(temp, 8.0f, ERR_PRESET, true);
return false;
}
}
// now really try to compile it.
bool failed=false;
int len = lstrlen(szShaderText);
if (D3D_OK != pCompileShader(
szShaderText,
len,
NULL,//CONST D3DXMACRO* pDefines,
NULL,//LPD3DXINCLUDE pInclude,
szFn,
szProfile,
m_dwShaderFlags,
&pShaderByteCode,
&m_pShaderCompileErrors,
ppConstTable
))
{
failed=true;
}
// before we totally fail, let's try using ps_2_b instead of ps_2_a
if (failed && !strcmp(szProfile, "ps_2_a"))
{
SafeRelease(m_pShaderCompileErrors);
if (D3D_OK == pCompileShader(szShaderText, len, NULL, NULL, szFn,
"ps_2_b", m_dwShaderFlags, &pShaderByteCode, &m_pShaderCompileErrors, ppConstTable))
{
failed=false;
}
}
if (failed)
{
wchar_t temp[1024];
swprintf(temp, WASABI_API_LNGSTRINGW(IDS_ERROR_COMPILING_X_X_SHADER), szProfile, szWhichShader);
if (m_pShaderCompileErrors && m_pShaderCompileErrors->GetBufferSize() < sizeof(temp) - 256)
{
lstrcatW(temp, L"\n\n");
lstrcatW(temp, AutoWide((char*)m_pShaderCompileErrors->GetBufferPointer()));
}
SafeRelease(m_pShaderCompileErrors);
dumpmsg(temp);
if (bHardErrors)
MessageBoxW(GetPluginWindow(), temp, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
else {
AddError(temp, 8.0f, ERR_PRESET, true);
}
return false;
}
HRESULT hr = 1;
if (szProfile[0] == 'v')
{
hr = GetDevice()->CreateVertexShader((const unsigned long *)(pShaderByteCode->GetBufferPointer()), (IDirect3DVertexShader9**)ppShader);
}
else if (szProfile[0] == 'p')
{
hr = GetDevice()->CreatePixelShader((const unsigned long *)(pShaderByteCode->GetBufferPointer()), (IDirect3DPixelShader9**)ppShader);
}
if (hr != D3D_OK)
{
wchar_t temp[512];
WASABI_API_LNGSTRINGW_BUF(IDS_ERROR_CREATING_SHADER,temp,sizeof(temp));
dumpmsg(temp);
if (bHardErrors)
MessageBoxW(GetPluginWindow(), temp, WASABI_API_LNGSTRINGW_BUF(IDS_MILKDROP_ERROR,title,64), MB_OK|MB_SETFOREGROUND|MB_TOPMOST );
else {
AddError(temp, 6.0f, ERR_PRESET, true);
}
return false;
}
pShaderByteCode->Release();
return true;
}
//----------------------------------------------------------------------
void CPlugin::CleanUpMyDX9Stuff(int final_cleanup)
{
// Clean up all your DX9 and D3DX textures, fonts, buffers, etc. here.
// EVERYTHING CREATED IN ALLOCATEMYDX9STUFF() SHOULD BE CLEANED UP HERE.
// The input parameter, 'final_cleanup', will be 0 if this is
// a routine cleanup (part of a window resize or switch between
// fullscr/windowed modes), or 1 if this is the final cleanup
// and the plugin is exiting. Note that even if it is a routine
// cleanup, *you still have to release ALL your DirectX stuff,
// because the DirectX device is being destroyed and recreated!*
// Also set all the pointers back to NULL;
// this is important because if we go to reallocate the DX9
// stuff later, and something fails, then CleanUp will get called,
// but it will then be trying to clean up invalid pointers.)
// The SafeRelease() and SafeDelete() macros make your code prettier;
// they are defined here in utility.h as follows:
// #define SafeRelease(x) if (x) {x->Release(); x=NULL;}
// #define SafeDelete(x) if (x) {delete x; x=NULL;}
// IMPORTANT:
// This function ISN'T only called when the plugin exits!
// It is also called whenever the user toggles between fullscreen and
// windowed modes, or resizes the window. Basically, on these events,
// the base class calls CleanUpMyDX9Stuff before Reset()ing the DirectX
// device, and then calls AllocateMyDX9Stuff afterwards.
// One funky thing here: if we're switching between fullscreen and windowed,
// or doing any other thing that causes all this stuff to get reloaded in a second,
// then if we were blending 2 presets, jump fully to the new preset.
// Otherwise the old preset wouldn't get all reloaded, and it app would crash
// when trying to use its stuff.
if (m_nLoadingPreset != 0) {
// finish up the pre-load & start the official blend
m_nLoadingPreset = 8;
LoadPresetTick();
}
// just force this:
m_pState->m_bBlending = false;
for ( TexInfo &l_texture : m_textures )
{
if ( l_texture.texptr )
{
// notify all CShaderParams classes that we're releasing a bindable texture!!
for ( CShaderParams *l_shader_param : global_CShaderParams_master_list )
l_shader_param->OnTextureEvict( l_texture.texptr );
SafeRelease( l_texture.texptr );
}
}
m_textures.clear();
// DON'T RELEASE blur textures - they were already released because they're in m_textures[].
#if (NUM_BLUR_TEX>0)
for (int i=0; i<NUM_BLUR_TEX; i++)
m_lpBlur[i] = NULL;//SafeRelease(m_lpBlur[i]);
#endif
// NOTE: not necessary; shell does this for us.
/*if (GetDevice())
{
GetDevice()->SetTexture(0, NULL);
GetDevice()->SetTexture(1, NULL);
}*/
SafeRelease(m_pSpriteVertDecl);
SafeRelease(m_pWfVertDecl);
SafeRelease(m_pMyVertDecl);
m_shaders.comp.Clear();
m_shaders.warp.Clear();
m_OldShaders.comp.Clear();
m_OldShaders.warp.Clear();
m_NewShaders.comp.Clear();
m_NewShaders.warp.Clear();
m_fallbackShaders_vs.comp.Clear();
m_fallbackShaders_ps.comp.Clear();
m_fallbackShaders_vs.warp.Clear();
m_fallbackShaders_ps.warp.Clear();
m_BlurShaders[0].vs.Clear();
m_BlurShaders[0].ps.Clear();
m_BlurShaders[1].vs.Clear();
m_BlurShaders[1].ps.Clear();
/*
SafeRelease( m_shaders.comp.ptr );
SafeRelease( m_shaders.warp.ptr );
SafeRelease( m_OldShaders.comp.ptr );
SafeRelease( m_OldShaders.warp.ptr );
SafeRelease( m_NewShaders.comp.ptr );
SafeRelease( m_NewShaders.warp.ptr );
SafeRelease( m_fallbackShaders_vs.comp.ptr );
SafeRelease( m_fallbackShaders_ps.comp.ptr );
SafeRelease( m_fallbackShaders_vs.warp.ptr );
SafeRelease( m_fallbackShaders_ps.warp.ptr );
*/
SafeRelease( m_pShaderCompileErrors );
//SafeRelease( m_pCompiledFragments );
//SafeRelease( m_pFragmentLinker );
// 2. release stuff
SafeRelease(m_lpVS[0]);
SafeRelease(m_lpVS[1]);
SafeRelease(m_lpDDSTitle);
SafeRelease(m_d3dx_title_font_doublesize);
// NOTE: THIS CODE IS IN THE RIGHT PLACE.
if (m_gdi_title_font_doublesize)
{
DeleteObject(m_gdi_title_font_doublesize);
m_gdi_title_font_doublesize = NULL;
}
m_texmgr.Finish();
if (m_verts != NULL)
{
delete m_verts;
m_verts = NULL;
}
if (m_verts_temp != NULL)
{
delete m_verts_temp;
m_verts_temp = NULL;
}
if (m_vertinfo != NULL)
{
delete m_vertinfo;
m_vertinfo = NULL;
}
if (m_indices_list != NULL)
{
delete m_indices_list;
m_indices_list = NULL;
}
if (m_indices_strip != NULL)
{
delete m_indices_strip;
m_indices_strip = NULL;
}
ClearErrors();
// This setting is closely tied to the modern skin "random" button.
// The "random" state should be preserved from session to session.
// It's pretty safe to do, because the Scroll Lock key is hard to
// accidentally click... :)
WritePrivateProfileIntW(m_bPresetLockedByUser,L"bPresetLockOnAtStartup", GetConfigIniFile(),L"settings");
}
//----------------------------------------------------------------------
//----------------------------------------------------------------------
//----------------------------------------------------------------------
void CPlugin::MyRenderFn(int redraw)
{
EnterCriticalSection(&g_cs);
// Render a frame of animation here.
// This function is called each frame just AFTER BeginScene().
// For timing information, call 'GetTime()' and 'GetFps()'.
// The usual formula is like this (but doesn't have to be):
// 1. take care of timing/other paperwork/etc. for new frame
// 2. clear the background
// 3. get ready for 3D drawing
// 4. draw your 3D stuff
// 5. call PrepareFor2DDrawing()
// 6. draw your 2D stuff (overtop of your 3D scene)
// If the 'redraw' flag is 1, you should try to redraw
// the last frame; GetTime, GetFps, and GetFrame should
// all return the same values as they did on the last
// call to MyRenderFn(). Otherwise, the redraw flag will
// be zero, and you can draw a new frame. The flag is
// used to force the desktop to repaint itself when
// running in desktop mode and Winamp is paused or stopped.
// 1. take care of timing/other paperwork/etc. for new frame
if (!redraw)
{
float dt = GetTime() - m_prev_time;
m_prev_time = GetTime(); // note: m_prev_time is not for general use!
m_bPresetLockedByCode = (m_UI_mode != UI_REGULAR);
if (m_bPresetLockedByUser || m_bPresetLockedByCode)
{
// to freeze time (at current preset time value) when menus are up or Scroll Lock is on:
//m_fPresetStartTime += dt;
//m_fNextPresetTime += dt;
// OR, to freeze time @ [preset] zero, so that when you exit menus,
// you don't run the risk of it changing the preset on you right away:
m_fPresetStartTime = GetTime();
m_fNextPresetTime = -1.0f; // flags UpdateTime() to recompute this.
}
//if (!m_bPresetListReady)
// UpdatePresetList(true);//UpdatePresetRatings(); // read in a few each frame, til they're all in
}
// 2. check for lost or gained kb focus:
// (note: can't use wm_setfocus or wm_killfocus because they don't work w/embedwnd)
if (GetFrame()==0)
{
// NOTE: we skip this if we've already gotten a WM_COMMAND/ID_VIS_RANDOM message
// from the skin - if that happened, we're running windowed with a fancy
// skin with a 'rand' button.
SetScrollLock(m_bPresetLockOnAtStartup, m_bPreventScollLockHandling);
// make sure the 'random' button on the skin shows the right thing:
// NEVERMIND - if it's a fancy skin, it'll send us WM_COMMAND/ID_VIS_RANDOM
// and we'll match the skin's Random button state.
//SendMessage(GetWinampWindow(),WM_WA_IPC,m_bMilkdropScrollLockState, IPC_CB_VISRANDOM);
}
else
{
m_bHadFocus = m_bHasFocus;
HWND winamp = GetWinampWindow();
HWND plugin = GetPluginWindow();
HWND focus = GetFocus();
HWND cur = plugin;
m_bHasFocus = false;
do
{
m_bHasFocus = (focus == cur);
if (m_bHasFocus)
break;
cur = GetParent(cur);
}
while (cur != NULL && cur != winamp);
if (m_hTextWnd && focus==m_hTextWnd)
m_bHasFocus = 1;
if (GetFocus()==NULL)
m_bHasFocus = 0;
;
//HWND t1 = GetFocus();
//HWND t2 = GetPluginWindow();
//HWND t3 = GetParent(t2);
if (m_bHadFocus==1 && m_bHasFocus==0)
{
//m_bMilkdropScrollLockState = GetKeyState(VK_SCROLL) & 1;
SetScrollLock(m_bOrigScrollLockState, m_bPreventScollLockHandling);
}
else if (m_bHadFocus==0 && m_bHasFocus==1)
{
m_bOrigScrollLockState = GetKeyState(VK_SCROLL) & 1;
SetScrollLock(m_bPresetLockedByUser, m_bPreventScollLockHandling);
}
}
if (!redraw)
{
GetWinampSongTitle(GetWinampWindow(), m_szSongTitle, sizeof(m_szSongTitle)-1);
if (wcscmp(m_szSongTitle, m_szSongTitlePrev))
{
lstrcpynW(m_szSongTitlePrev, m_szSongTitle, 512);
if (m_bSongTitleAnims)
LaunchSongTitleAnim();
}
}
// 2. Clear the background:
//DWORD clear_color = (m_fog_enabled) ? FOG_COLOR : 0xFF000000;
//GetDevice()->Clear(0, 0, D3DCLEAR_TARGET|D3DCLEAR_ZBUFFER, clear_color, 1.0f, 0);
// 5. switch to 2D drawing mode. 2D coord system:
// +--------+ Y=-1
// | |
// | screen | Z=0: front of scene
// | | Z=1: back of scene
// +--------+ Y=1
// X=-1 X=1
PrepareFor2DDrawing(GetDevice());
if (!redraw)
DoCustomSoundAnalysis(); // emulates old pre-vms milkdrop sound analysis
RenderFrame(redraw); // see milkdropfs.cpp
/*
for (int i=0; i<10; i++)
{
RECT r;
r.top = GetHeight()*i/10;
r.left = 0;
r.right = GetWidth();
r.bottom = r.top + GetFontHeight(DECORATIVE_FONT);
char buf[256];
switch(i)
{
case 0: lstrcpy(buf, "this is a test"); break;
case 1: lstrcpy(buf, "argh"); break;
case 2: lstrcpy(buf, "!!"); break;
case 3: lstrcpy(buf, "TESTING FONTS"); break;
case 4: lstrcpy(buf, "rancid bear grease"); break;
case 5: lstrcpy(buf, "whoppers and ding dongs"); break;
case 6: lstrcpy(buf, "billy & joey"); break;
case 7: lstrcpy(buf, "."); break;
case 8: lstrcpy(buf, "---"); break;
case 9: lstrcpy(buf, "test"); break;
}
int t = (int)( 54 + 18*sin(i/10.0f*53.7f + 1) - 28*sin(i/10.0f*39.4f + 3) );
if (((GetFrame() + i*107) % t) < t*8/9)
m_text.QueueText(GetFont(DECORATIVE_FONT), buf, r, 0, 0xFFFF00FF);
}
/**/
if (!redraw)
{
m_nFramesSinceResize++;
if (m_nLoadingPreset > 0)
{
LoadPresetTick();
}
}
LeaveCriticalSection(&g_cs);
}
//----------------------------------------------------------------------
//----------------------------------------------------------------------
//----------------------------------------------------------------------
//----------------------------------------------------------------------
void CPlugin::DrawTooltip(wchar_t* str, int xR, int yB)
{
// draws a string in the lower-right corner of the screen.
// note: ID3DXFont handles DT_RIGHT and DT_BOTTOM *very poorly*.
// it is best to calculate the size of the text first,
// then place it in the right spot.
// note: use DT_WORDBREAK instead of DT_WORD_ELLIPSES, otherwise certain fonts'
// calcrect (for the dark box) will be wrong.
RECT r, r2;
SetRect(&r, 0, 0, xR-TEXT_MARGIN*2, 2048);
m_text.DrawTextW(GetFont(TOOLTIP_FONT), str, -1, &r, DT_CALCRECT, 0xFFFFFFFF, false);
r2.bottom = yB - TEXT_MARGIN;
r2.right = xR - TEXT_MARGIN;
r2.left = r2.right - (r.right-r.left);
r2.top = r2.bottom - (r.bottom-r.top);
RECT r3 = r2; r3.left -= 4; r3.top -= 2; r3.right += 2; r3.bottom += 2;
DrawDarkTranslucentBox(&r3);
m_text.DrawTextW(GetFont(TOOLTIP_FONT), str, -1, &r2, 0, 0xFFFFFFFF, false);
}
#define MTO_UPPER_RIGHT 0
#define MTO_UPPER_LEFT 1
#define MTO_LOWER_RIGHT 2
#define MTO_LOWER_LEFT 3
#define SelectFont(n) { \
pFont = GetFont(n); \
h = GetFontHeight(n); \
}
#define MyTextOut_BGCOLOR(str, corner, bDarkBox, boxColor) { \
SetRect(&r, 0, 0, xR-xL, 2048); \
m_text.DrawTextW(pFont, str, -1, &r, DT_NOPREFIX | ((corner == MTO_UPPER_RIGHT)?0:DT_SINGLELINE) | DT_WORD_ELLIPSIS | DT_CALCRECT | ((corner == MTO_UPPER_RIGHT) ? DT_RIGHT : 0), 0xFFFFFFFF, false, boxColor); \
int w = r.right - r.left; \
if (corner == MTO_UPPER_LEFT ) SetRect(&r, xL, *upper_left_corner_y, xL+w, *upper_left_corner_y + h); \
else if (corner == MTO_UPPER_RIGHT) SetRect(&r, xR-w, *upper_right_corner_y, xR, *upper_right_corner_y + h); \
else if (corner == MTO_LOWER_LEFT ) SetRect(&r, xL, *lower_left_corner_y - h, xL+w, *lower_left_corner_y); \
else if (corner == MTO_LOWER_RIGHT) SetRect(&r, xR-w, *lower_right_corner_y - h, xR, *lower_right_corner_y); \
m_text.DrawTextW(pFont, str, -1, &r, DT_NOPREFIX | ((corner == MTO_UPPER_RIGHT)?0:DT_SINGLELINE) | DT_WORD_ELLIPSIS | ((corner == MTO_UPPER_RIGHT) ? DT_RIGHT: 0), 0xFFFFFFFF, bDarkBox, boxColor); \
if (corner == MTO_UPPER_LEFT ) *upper_left_corner_y += h; \
else if (corner == MTO_UPPER_RIGHT) *upper_right_corner_y += h; \
else if (corner == MTO_LOWER_LEFT ) *lower_left_corner_y -= h; \
else if (corner == MTO_LOWER_RIGHT) *lower_right_corner_y -= h; \
}
#define MyTextOut(str, corner, bDarkBox) MyTextOut_BGCOLOR(str, corner, bDarkBox, 0xFF000000)
#define MyTextOut_Shadow(str, corner) { \
/* calc rect size */ \
SetRect(&r, 0, 0, xR-xL, 2048); \
m_text.DrawTextW(pFont, (wchar_t*)str, -1, &r, DT_NOPREFIX | DT_SINGLELINE | DT_WORD_ELLIPSIS | DT_CALCRECT, 0xFFFFFFFF, false, 0xFF000000); \
int w = r.right - r.left; \
/* first the shadow */ \
if (corner == MTO_UPPER_LEFT ) SetRect(&r, xL, *upper_left_corner_y, xL+w, *upper_left_corner_y + h); \
else if (corner == MTO_UPPER_RIGHT) SetRect(&r, xR-w, *upper_right_corner_y, xR, *upper_right_corner_y + h); \
else if (corner == MTO_LOWER_LEFT ) SetRect(&r, xL, *lower_left_corner_y - h, xL+w, *lower_left_corner_y); \
else if (corner == MTO_LOWER_RIGHT) SetRect(&r, xR-w, *lower_right_corner_y - h, xR, *lower_right_corner_y); \
r.top += 1; r.left += 1; \
m_text.DrawTextW(pFont, (wchar_t*)str, -1, &r, DT_NOPREFIX | DT_SINGLELINE | DT_WORD_ELLIPSIS, 0xFF000000, false, 0xFF000000); \
/* now draw real text */ \
r.top -= 1; r.left -= 1; \
m_text.DrawTextW(pFont, (wchar_t*)str, -1, &r, DT_NOPREFIX | DT_SINGLELINE | DT_WORD_ELLIPSIS, 0xFFFFFFFF, false, 0xFF000000); \
if (corner == MTO_UPPER_LEFT ) *upper_left_corner_y += h; \
else if (corner == MTO_UPPER_RIGHT) *upper_right_corner_y += h; \
else if (corner == MTO_LOWER_LEFT ) *lower_left_corner_y -= h; \
else if (corner == MTO_LOWER_RIGHT) *lower_right_corner_y -= h; \
}
void CPlugin::OnAltK()
{
AddError(WASABI_API_LNGSTRINGW(IDS_PLEASE_EXIT_VIS_BEFORE_RUNNING_CONFIG_PANEL), 3.0f, ERR_NOTIFY, true);
}
void CPlugin::AddError(wchar_t* szMsg, float fDuration, int category, bool bBold)
{
if (category == ERR_NOTIFY)
ClearErrors(category);
assert(category != ERR_ALL);
ErrorMsg x;
x.msg = szMsg;
x.birthTime = GetTime();
x.expireTime = GetTime() + fDuration;
x.category = category;
x.bBold = bBold;
m_errors.push_back(x);
}
void CPlugin::ClearErrors(int category) // 0=all categories
{
int N = m_errors.size();
for (int i = 0; i < N; i++)
{
if (category == ERR_ALL || m_errors[i].category == category)
{
m_errors.erase(m_errors.begin() + i);
i--;
N--;
}
}
}
void CPlugin::MyRenderUI(
int *upper_left_corner_y, // increment me!
int *upper_right_corner_y, // increment me!
int *lower_left_corner_y, // decrement me!
int *lower_right_corner_y, // decrement me!
int xL,
int xR
)
{
// draw text messages directly to the back buffer.
// when you draw text into one of the four corners,
// draw the text at the current 'y' value for that corner
// (one of the first 4 params to this function),
// and then adjust that y value so that the next time
// text is drawn in that corner, it gets drawn above/below
// the previous text (instead of overtop of it).
// when drawing into the upper or lower LEFT corners,
// left-align your text to 'xL'.
// when drawing into the upper or lower RIGHT corners,
// right-align your text to 'xR'.
// note: try to keep the bounding rectangles on the text small;
// the smaller the area that has to be locked (to draw the text),
// the faster it will be. (on some cards, drawing text is
// ferociously slow, so even if it works okay on yours, it might
// not work on another video card.)
// note: if you want some text to be on the screen often, and the text
// won't be changing every frame, please consider the poor folks
// whose video cards hate that; in that case you should probably
// draw the text just once, to a texture, and then display the
// texture each frame. This is how the help screen is done; see
// pluginshell.cpp for example code.
RECT r = {0};
wchar_t buf[512] = {0};
LPD3DXFONT pFont = GetFont(DECORATIVE_FONT);
int h = GetFontHeight(DECORATIVE_FONT);
if (!pFont)
return;
if (!GetFont(DECORATIVE_FONT))
return;
// 1. render text in upper-right corner - EXCEPT USER MESSAGE - it goes last b/c it draws a box under itself
// and it should be visible over everything else (usually an error msg)
{
// a) preset name
if (m_bShowPresetInfo)
{
SelectFont(DECORATIVE_FONT);
swprintf(buf, L"%s ", (m_nLoadingPreset != 0) ? m_pNewState->m_szDesc : m_pState->m_szDesc);
MyTextOut_Shadow(buf, MTO_UPPER_RIGHT);
}
// b) preset rating
if (m_bShowRating || GetTime() < m_fShowRatingUntilThisTime)
{
// see also: SetCurrentPresetRating() in milkdrop.cpp
SelectFont(DECORATIVE_FONT);
swprintf(buf, L" %s: %d ", WASABI_API_LNGSTRINGW(IDS_RATING), (int)m_pState->m_fRating);
if (!m_bEnableRating) lstrcatW(buf, WASABI_API_LNGSTRINGW(IDS_DISABLED));
MyTextOut_Shadow(buf, MTO_UPPER_RIGHT);
}
// c) fps display
if (m_bShowFPS)
{
SelectFont(DECORATIVE_FONT);
swprintf(buf, L"%s: %4.2f ", WASABI_API_LNGSTRINGW(IDS_FPS), GetFps()); // leave extra space @ end, so italicized fonts don't get clipped
MyTextOut_Shadow(buf, MTO_UPPER_RIGHT);
}
// d) debug information
if (m_bShowDebugInfo)
{
SelectFont(SIMPLE_FONT);
swprintf(buf, L" %s: %6.4f ", WASABI_API_LNGSTRINGW(IDS_PF_MONITOR), (float)(*m_pState->var_pf_monitor));
MyTextOut_Shadow(buf, MTO_UPPER_RIGHT);
}
// NOTE: custom timed msg comes at the end!!
}
// 2. render text in lower-right corner
{
// waitstring tooltip:
if (m_waitstring.bActive && m_bShowMenuToolTips && m_waitstring.szToolTip[0])
{
DrawTooltip(m_waitstring.szToolTip, xR, *lower_right_corner_y);
}
}
// 3. render text in lower-left corner
{
wchar_t buf2[512] = {0};
wchar_t buf3[512+1] = {0}; // add two extra spaces to end, so italicized fonts don't get clipped
// render song title in lower-left corner:
if (m_bShowSongTitle)
{
wchar_t buf4[512] = {0};
SelectFont(DECORATIVE_FONT);
GetWinampSongTitle(GetWinampWindow(), buf4, sizeof(buf4)); // defined in utility.h/cpp
MyTextOut_Shadow(buf4, MTO_LOWER_LEFT);
}
// render song time & len above that:
if (m_bShowSongTime || m_bShowSongLen)
{
GetWinampSongPosAsText(GetWinampWindow(), buf); // defined in utility.h/cpp
GetWinampSongLenAsText(GetWinampWindow(), buf2); // defined in utility.h/cpp
if (m_bShowSongTime && m_bShowSongLen)
{
// only show playing position and track length if it is playing (buffer is valid)
if(buf[0])
swprintf(buf3, L"%s / %s ", buf, buf2);
else
lstrcpynW(buf3, buf2, 512);
}
else if (m_bShowSongTime)
lstrcpynW(buf3, buf, 512);
else
lstrcpynW(buf3, buf2, 512);
SelectFont(DECORATIVE_FONT);
MyTextOut_Shadow(buf3, MTO_LOWER_LEFT);
}
}
// 4. render text in upper-left corner
{
wchar_t buf[64000] = {0}; // must fit the longest strings (code strings are 32768 chars)
// AND leave extra space for &->&&, and [,[,& insertion
char bufA[64000] = {0};
SelectFont(SIMPLE_FONT);
// stuff for loading presets, menus, etc:
if (m_waitstring.bActive)
{
// 1. draw the prompt string
MyTextOut(m_waitstring.szPrompt, MTO_UPPER_LEFT, true);
// extra instructions:
bool bIsWarp = m_waitstring.bDisplayAsCode && (m_pCurMenu == &m_menuPreset) && !wcscmp(m_menuPreset.GetCurItem()->m_szName, L"[ edit warp shader ]");
bool bIsComp = m_waitstring.bDisplayAsCode && (m_pCurMenu == &m_menuPreset) && !wcscmp(m_menuPreset.GetCurItem()->m_szName, L"[ edit composite shader ]");
if (bIsWarp || bIsComp)
{
if (m_bShowShaderHelp) {
MyTextOut(WASABI_API_LNGSTRINGW(IDS_PRESS_F9_TO_HIDE_SHADER_QREF), MTO_UPPER_LEFT, true);
}
else {
MyTextOut(WASABI_API_LNGSTRINGW(IDS_PRESS_F9_TO_SHOW_SHADER_QREF), MTO_UPPER_LEFT, true);
}
*upper_left_corner_y += h*2/3;
if (m_bShowShaderHelp)
{
// draw dark box - based on longest line & # lines...
SetRect(&r, 0, 0, 2048, 2048);
m_text.DrawTextW(pFont, WASABI_API_LNGSTRINGW(IDS_STRING615), -1, &r, DT_NOPREFIX | DT_SINGLELINE | DT_WORD_ELLIPSIS | DT_CALCRECT, 0xFFFFFFFF, false, 0xFF000000);
RECT darkbox;
SetRect(&darkbox, xL, *upper_left_corner_y-2, xL+r.right-r.left, *upper_left_corner_y + (r.bottom-r.top)*13 + 2);
DrawDarkTranslucentBox(&darkbox);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING616), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING617), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING618), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING619), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING620), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING621), MTO_UPPER_LEFT, false);
if (bIsWarp)
{
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING622), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING623), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING624), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING625), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING626), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING627), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING628), MTO_UPPER_LEFT, false);
}
else if (bIsComp)
{
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING629), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING630), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING631), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING632), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING633), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING634), MTO_UPPER_LEFT, false);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_STRING635), MTO_UPPER_LEFT, false);
}
*upper_left_corner_y += h*2/3;
}
}
else if (m_UI_mode == UI_SAVEAS && (m_bWarpShaderLock || m_bCompShaderLock))
{
wchar_t buf[256] = {0};
int shader_msg_id = IDS_COMPOSITE_SHADER_LOCKED;
if (m_bWarpShaderLock && m_bCompShaderLock)
shader_msg_id = IDS_WARP_AND_COMPOSITE_SHADERS_LOCKED;
else if (m_bWarpShaderLock && !m_bCompShaderLock)
shader_msg_id = IDS_WARP_SHADER_LOCKED;
else
shader_msg_id = IDS_COMPOSITE_SHADER_LOCKED;
WASABI_API_LNGSTRINGW_BUF(shader_msg_id, buf, 256);
MyTextOut_BGCOLOR(buf, MTO_UPPER_LEFT, true, 0xFF000000);
*upper_left_corner_y += h*2/3;
}
else
*upper_left_corner_y += h*2/3;
// 2. reformat the waitstring text for display
int bBrackets = m_waitstring.nSelAnchorPos != -1 && m_waitstring.nSelAnchorPos != m_waitstring.nCursorPos;
int bCursorBlink = ( !bBrackets &&
((int)(GetTime()*270.0f) % 100 > 50)
//((GetFrame() % 3) >= 2)
);
lstrcpyW(buf, m_waitstring.szText);
lstrcpyA(bufA, (char*)m_waitstring.szText);
int temp_cursor_pos = m_waitstring.nCursorPos;
int temp_anchor_pos = m_waitstring.nSelAnchorPos;
if (bBrackets)
{
if (m_waitstring.bDisplayAsCode)
{
// insert [] around the selection
int start = (temp_cursor_pos < temp_anchor_pos) ? temp_cursor_pos : temp_anchor_pos;
int end = (temp_cursor_pos > temp_anchor_pos) ? temp_cursor_pos - 1 : temp_anchor_pos - 1;
int len = lstrlenA(bufA);
int i;
for (i=len; i>end; i--)
bufA[i+1] = bufA[i];
bufA[end+1] = ']';
len++;
for (i=len; i>=start; i--)
bufA[i+1] = bufA[i];
bufA[start] = '[';
len++;
}
else
{
// insert [] around the selection
int start = (temp_cursor_pos < temp_anchor_pos) ? temp_cursor_pos : temp_anchor_pos;
int end = (temp_cursor_pos > temp_anchor_pos) ? temp_cursor_pos - 1 : temp_anchor_pos - 1;
int len = lstrlenW(buf);
int i;
for (i=len; i>end; i--)
buf[i+1] = buf[i];
buf[end+1] = L']';
len++;
for (i=len; i>=start; i--)
buf[i+1] = buf[i];
buf[start] = L'[';
len++;
}
}
else
{
// underline the current cursor position by rapidly toggling the character with an underscore
if (m_waitstring.bDisplayAsCode)
{
if (bCursorBlink)
{
if (bufA[temp_cursor_pos] == 0)
{
bufA[temp_cursor_pos] = '_';
bufA[temp_cursor_pos+1] = 0;
}
else if (bufA[temp_cursor_pos] == LINEFEED_CONTROL_CHAR)
{
for (int i=strlen(bufA); i>=temp_cursor_pos; i--)
bufA[i+1] = bufA[i];
bufA[temp_cursor_pos] = '_';
}
else if (bufA[temp_cursor_pos] == '_')
bufA[temp_cursor_pos] = ' ';
else // it's a space or symbol or alphanumeric.
bufA[temp_cursor_pos] = '_';
}
else
{
if (bufA[temp_cursor_pos] == 0)
{
bufA[temp_cursor_pos] = ' ';
bufA[temp_cursor_pos+1] = 0;
}
else if (bufA[temp_cursor_pos] == LINEFEED_CONTROL_CHAR)
{
for (int i=strlen(bufA); i>=temp_cursor_pos; i--)
bufA[i+1] = bufA[i];
bufA[temp_cursor_pos] = ' ';
}
//else if (buf[temp_cursor_pos] == '_')
// do nothing
//else // it's a space or symbol or alphanumeric.
// do nothing
}
}
else
{
if (bCursorBlink)
{
if (buf[temp_cursor_pos] == 0)
{
buf[temp_cursor_pos] = L'_';
buf[temp_cursor_pos+1] = 0;
}
else if (buf[temp_cursor_pos] == LINEFEED_CONTROL_CHAR)
{
for (int i=wcslen(buf); i>=temp_cursor_pos; i--)
buf[i+1] = buf[i];
buf[temp_cursor_pos] = L'_';
}
else if (buf[temp_cursor_pos] == L'_')
buf[temp_cursor_pos] = L' ';
else // it's a space or symbol or alphanumeric.
buf[temp_cursor_pos] = L'_';
}
else
{
if (buf[temp_cursor_pos] == 0)
{
buf[temp_cursor_pos] = L' ';
buf[temp_cursor_pos+1] = 0;
}
else if (buf[temp_cursor_pos] == LINEFEED_CONTROL_CHAR)
{
for (int i=wcslen(buf); i>=temp_cursor_pos; i--)
buf[i+1] = buf[i];
buf[temp_cursor_pos] = L' ';
}
//else if (buf[temp_cursor_pos] == '_')
// do nothing
//else // it's a space or symbol or alphanumeric.
// do nothing
}
}
}
RECT rect = {0};
SetRect(&rect, xL, *upper_left_corner_y, xR, *lower_left_corner_y);
rect.top += PLAYLIST_INNER_MARGIN;
rect.left += PLAYLIST_INNER_MARGIN;
rect.right -= PLAYLIST_INNER_MARGIN;
rect.bottom -= PLAYLIST_INNER_MARGIN;
// then draw the edit string
if (m_waitstring.bDisplayAsCode)
{
char buf2[8192] = {0};
int top_of_page_pos = 0;
// compute top_of_page_pos so that the line the cursor is on will show.
// also compute dims of the black rectangle while we're at it.
{
int start = 0;
int pos = 0;
int ypixels = 0;
int page = 1;
int exit_on_next_page = 0;
RECT box = rect;
box.right = box.left;
box.bottom = box.top;
while (bufA[pos] != 0) // for each line of text... (note that it might wrap)
{
start = pos;
while (bufA[pos] != LINEFEED_CONTROL_CHAR && bufA[pos] != 0)
pos++;
char ch = bufA[pos];
bufA[pos] = 0;
sprintf(buf2, " %sX", &bufA[start]); // put a final 'X' instead of ' ' b/c CALCRECT returns w==0 if string is entirely whitespace!
RECT r2 = rect;
r2.bottom = 4096;
m_text.DrawTextA(GetFont(SIMPLE_FONT), buf2, -1, &r2, DT_CALCRECT /*| DT_WORDBREAK*/, 0xFFFFFFFF, false);
int h = r2.bottom-r2.top;
ypixels += h;
bufA[pos] = ch;
if (start > m_waitstring.nCursorPos) // make sure 'box' gets updated for each line on this page
exit_on_next_page = 1;
if (ypixels > rect.bottom-rect.top) // this line belongs on the next page
{
if (exit_on_next_page)
{
bufA[start] = 0; // so text stops where the box stops, when we draw the text
break;
}
ypixels = h;
top_of_page_pos = start;
page++;
box = rect;
box.right = box.left;
box.bottom = box.top;
}
box.bottom += h;
box.right = max(box.right, box.left + r2.right-r2.left);
if (bufA[pos]==0)
break;
pos++;
}
// use r2 to draw a dark box:
box.top -= PLAYLIST_INNER_MARGIN;
box.left -= PLAYLIST_INNER_MARGIN;
box.right += PLAYLIST_INNER_MARGIN;
box.bottom += PLAYLIST_INNER_MARGIN;
DrawDarkTranslucentBox(&box);
*upper_left_corner_y += box.bottom - box.top + PLAYLIST_INNER_MARGIN*3;
swprintf(m_waitstring.szToolTip, WASABI_API_LNGSTRINGW(IDS_PAGE_X), page);
}
// display multiline (replace all character 13's with a CR)
{
int start = top_of_page_pos;
int pos = top_of_page_pos;
while (bufA[pos] != 0)
{
while (bufA[pos] != LINEFEED_CONTROL_CHAR && bufA[pos] != 0)
pos++;
char ch = bufA[pos];
bufA[pos] = 0;
sprintf(buf2, " %s ", &bufA[start]);
DWORD color = MENU_COLOR;
if (m_waitstring.nCursorPos >= start && m_waitstring.nCursorPos <= pos)
color = MENU_HILITE_COLOR;
rect.top += m_text.DrawTextA(GetFont(SIMPLE_FONT), buf2, -1, &rect, 0/*DT_WORDBREAK*/, color, false);
bufA[pos] = ch;
if (rect.top > rect.bottom)
break;
if (bufA[pos] != 0) pos++;
start = pos;
}
}
// note: *upper_left_corner_y is updated above, when the dark box is drawn.
}
else
{
wchar_t buf2[8192] = {0};
// display on one line
RECT box = rect;
box.bottom = 4096;
swprintf(buf2, L" %sX", buf); // put a final 'X' instead of ' ' b/c CALCRECT returns w==0 if string is entirely whitespace!
m_text.DrawTextW(GetFont(SIMPLE_FONT), buf2, -1, &box, DT_CALCRECT, MENU_COLOR, false );
// use r2 to draw a dark box:
box.top -= PLAYLIST_INNER_MARGIN;
box.left -= PLAYLIST_INNER_MARGIN;
box.right += PLAYLIST_INNER_MARGIN;
box.bottom += PLAYLIST_INNER_MARGIN;
DrawDarkTranslucentBox(&box);
*upper_left_corner_y += box.bottom - box.top + PLAYLIST_INNER_MARGIN*3;
swprintf(buf2, L" %s ", buf);
m_text.DrawTextW(GetFont(SIMPLE_FONT), buf2, -1, &rect, 0, MENU_COLOR, false );
}
}
else if (m_UI_mode == UI_MENU)
{
assert(m_pCurMenu);
SetRect(&r, xL, *upper_left_corner_y, xR, *lower_left_corner_y);
RECT darkbox = {0};
m_pCurMenu->DrawMenu(r, xR, *lower_right_corner_y, 1, &darkbox);
*upper_left_corner_y += darkbox.bottom - darkbox.top + PLAYLIST_INNER_MARGIN*3;
darkbox.right += PLAYLIST_INNER_MARGIN*2;
darkbox.bottom += PLAYLIST_INNER_MARGIN*2;
DrawDarkTranslucentBox(&darkbox);
r.top += PLAYLIST_INNER_MARGIN;
r.left += PLAYLIST_INNER_MARGIN;
r.right += PLAYLIST_INNER_MARGIN;
r.bottom += PLAYLIST_INNER_MARGIN;
m_pCurMenu->DrawMenu(r, xR, *lower_right_corner_y);
}
else if (m_UI_mode == UI_UPGRADE_PIXEL_SHADER)
{
RECT rect = {0};
SetRect(&rect, xL, *upper_left_corner_y, xR, *lower_left_corner_y);
if (m_pState->m_nWarpPSVersion >= m_nMaxPSVersion &&
m_pState->m_nCompPSVersion >= m_nMaxPSVersion)
{
assert(m_pState->m_nMaxPSVersion == m_nMaxPSVersion);
wchar_t buf[1024] = {0};
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_PRESET_USES_HIGHEST_PIXEL_SHADER_VERSION), m_nMaxPSVersion);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), buf, -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_PRESS_ESC_TO_RETURN), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
}
else
{
if (m_pState->m_nMinPSVersion != m_pState->m_nMaxPSVersion)
{
switch(m_pState->m_nMinPSVersion)
{
case MD2_PS_NONE:
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_PRESET_HAS_MIXED_VERSIONS_OF_SHADERS), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_UPGRADE_SHADERS_TO_USE_PS2), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
break;
case MD2_PS_2_0:
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_PRESET_HAS_MIXED_VERSIONS_OF_SHADERS), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_UPGRADE_SHADERS_TO_USE_PS2X), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
break;
case MD2_PS_2_X:
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_PRESET_HAS_MIXED_VERSIONS_OF_SHADERS), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_UPGRADE_SHADERS_TO_USE_PS3), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
break;
case MD2_PS_3_0:
assert(false);
break;
default:
assert(0);
break;
}
}
else
{
switch(m_pState->m_nMinPSVersion)
{
case MD2_PS_NONE:
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_PRESET_DOES_NOT_USE_PIXEL_SHADERS), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_UPGRADE_TO_USE_PS2), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_WARNING_OLD_GPU_MIGHT_NOT_WORK_WITH_PRESET), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
break;
case MD2_PS_2_0:
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_PRESET_CURRENTLY_USES_PS2), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_UPGRADE_TO_USE_PS2X), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_WARNING_OLD_GPU_MIGHT_NOT_WORK_WITH_PRESET), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
break;
case MD2_PS_2_X:
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_PRESET_CURRENTLY_USES_PS2X), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_UPGRADE_TO_USE_PS3), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_WARNING_OLD_GPU_MIGHT_NOT_WORK_WITH_PRESET), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
break;
case MD2_PS_3_0:
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_PRESET_CURRENTLY_USES_PS3), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_UPGRADE_TO_USE_PS4), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_WARNING_OLD_GPU_MIGHT_NOT_WORK_WITH_PRESET), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
break;
default:
assert(0);
break;
}
}
}
*upper_left_corner_y = rect.top;
}
else if (m_UI_mode == UI_LOAD_DEL)
{
RECT rect;
SetRect(&rect, xL, *upper_left_corner_y, xR, *lower_left_corner_y);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_ARE_YOU_SURE_YOU_WANT_TO_DELETE_PRESET), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_PRESET_TO_DELETE), m_presets[m_nPresetListCurPos].szFilename.c_str());
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), buf, -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
*upper_left_corner_y = rect.top;
}
else if (m_UI_mode == UI_SAVE_OVERWRITE)
{
RECT rect;
SetRect(&rect, xL, *upper_left_corner_y, xR, *lower_left_corner_y);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_FILE_ALREADY_EXISTS_OVERWRITE_IT), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_FILE_IN_QUESTION_X_MILK), m_waitstring.szText);
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), buf, -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, MENU_COLOR, true);
if (m_bWarpShaderLock)
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_WARNING_DO_NOT_FORGET_WARP_SHADER_WAS_LOCKED), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, 0xFFFFFFFF, true, 0xFFCC0000);
if (m_bCompShaderLock)
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), WASABI_API_LNGSTRINGW(IDS_WARNING_DO_NOT_FORGET_COMPOSITE_SHADER_WAS_LOCKED), -1, &rect, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX, 0xFFFFFFFF, true, 0xFFCC0000);
*upper_left_corner_y = rect.top;
}
else if (m_UI_mode == UI_MASHUP)
{
if (m_nPresets-m_nDirs == 0)
{
// note: this error message is repeated in milkdrop.cpp in LoadRandomPreset()
wchar_t buf[1024];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_ERROR_NO_PRESET_FILE_FOUND_IN_X_MILK), m_szPresetDir);
AddError(buf, 6.0f, ERR_MISC, true);
m_UI_mode = UI_REGULAR;
}
else
{
UpdatePresetList(); // make sure list is completely ready
// quick checks
for (int mash=0; mash<MASH_SLOTS; mash++)
{
// check validity
if (m_nMashPreset[mash] < m_nDirs)
m_nMashPreset[mash] = m_nDirs;
if (m_nMashPreset[mash] >= m_nPresets)
m_nMashPreset[mash] = m_nPresets-1;
// apply changes, if it's time
if (m_nLastMashChangeFrame[mash]+MASH_APPLY_DELAY_FRAMES+1 == GetFrame())
{
// import just a fragment of a preset!!
DWORD ApplyFlags = 0;
switch(mash)
{
case 0: ApplyFlags = STATE_GENERAL; break;
case 1: ApplyFlags = STATE_MOTION; break;
case 2: ApplyFlags = STATE_WAVE; break;
case 3: ApplyFlags = STATE_WARP; break;
case 4: ApplyFlags = STATE_COMP; break;
}
wchar_t szFile[MAX_PATH];
swprintf(szFile, L"%s%s", m_szPresetDir, m_presets[m_nMashPreset[mash]].szFilename.c_str());
m_pState->Import(szFile, GetTime(), m_pState, ApplyFlags);
if (ApplyFlags & STATE_WARP)
SafeRelease( m_shaders.warp.ptr );
if (ApplyFlags & STATE_COMP)
SafeRelease( m_shaders.comp.ptr );
LoadShaders(&m_shaders, m_pState, false);
SetMenusForPresetVersion( m_pState->m_nWarpPSVersion, m_pState->m_nCompPSVersion );
}
}
MyTextOut(WASABI_API_LNGSTRINGW(IDS_PRESET_MASH_UP_TEXT1), MTO_UPPER_LEFT, true);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_PRESET_MASH_UP_TEXT2), MTO_UPPER_LEFT, true);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_PRESET_MASH_UP_TEXT3), MTO_UPPER_LEFT, true);
MyTextOut(WASABI_API_LNGSTRINGW(IDS_PRESET_MASH_UP_TEXT4), MTO_UPPER_LEFT, true);
*upper_left_corner_y += PLAYLIST_INNER_MARGIN;
RECT rect;
SetRect(&rect, xL, *upper_left_corner_y, xR, *lower_left_corner_y);
rect.top += PLAYLIST_INNER_MARGIN;
rect.left += PLAYLIST_INNER_MARGIN;
rect.right -= PLAYLIST_INNER_MARGIN;
rect.bottom -= PLAYLIST_INNER_MARGIN;
int lines_available = (rect.bottom - rect.top - PLAYLIST_INNER_MARGIN*2) / GetFontHeight(SIMPLE_FONT);
lines_available -= MASH_SLOTS;
if (lines_available < 10)
{
// force it
rect.bottom = rect.top + GetFontHeight(SIMPLE_FONT)*10 + 1;
lines_available = 10;
}
if (lines_available > 16)
lines_available = 16;
if (m_bUserPagedDown)
{
m_nMashPreset[m_nMashSlot] += lines_available;
if (m_nMashPreset[m_nMashSlot] >= m_nPresets)
m_nMashPreset[m_nMashSlot] = m_nPresets - 1;
m_bUserPagedDown = false;
}
if (m_bUserPagedUp)
{
m_nMashPreset[m_nMashSlot] -= lines_available;
if (m_nMashPreset[m_nMashSlot] < m_nDirs)
m_nMashPreset[m_nMashSlot] = m_nDirs;
m_bUserPagedUp = false;
}
int i;
int first_line = m_nMashPreset[m_nMashSlot] - (m_nMashPreset[m_nMashSlot] % lines_available);
int last_line = first_line + lines_available;
wchar_t str[512], str2[512];
if (last_line > m_nPresets)
last_line = m_nPresets;
// tooltip:
if (m_bShowMenuToolTips)
{
wchar_t buf[256];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_PAGE_X_OF_X), m_nMashPreset[m_nMashSlot]/lines_available+1, (m_nPresets+lines_available-1)/lines_available);
DrawTooltip(buf, xR, *lower_right_corner_y);
}
RECT orig_rect = rect;
RECT box;
box.top = rect.top;
box.left = rect.left;
box.right = rect.left;
box.bottom = rect.top;
int mashNames[MASH_SLOTS] = { IDS_MASHUP_GENERAL_POSTPROC,
IDS_MASHUP_MOTION_EQUATIONS,
IDS_MASHUP_WAVEFORMS_SHAPES,
IDS_MASHUP_WARP_SHADER,
IDS_MASHUP_COMP_SHADER,
};
int pass = 0;
for (pass=0; pass<2; pass++)
{
box = orig_rect;
int w = 0;
int h = 0;
int start_y = orig_rect.top;
for (int mash=0; mash<MASH_SLOTS; mash++)
{
int idx = m_nMashPreset[mash];
wchar_t buf[1024];
swprintf(buf, L"%s%s", WASABI_API_LNGSTRINGW(mashNames[mash]), m_presets[idx].szFilename);
RECT r2 = orig_rect;
r2.top += h;
h += m_text.DrawTextW(GetFont(SIMPLE_FONT), buf, -1, &r2, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX | (pass==0 ? DT_CALCRECT : 0), (mash==m_nMashSlot) ? PLAYLIST_COLOR_HILITE_TRACK : PLAYLIST_COLOR_NORMAL, false);
w = max(w, r2.right - r2.left);
}
if (pass==0) {
box.right = box.left + w;
box.bottom = box.top + h;
DrawDarkTranslucentBox(&box);
}
else
orig_rect.top += h;
}
orig_rect.top += GetFontHeight(SIMPLE_FONT) + PLAYLIST_INNER_MARGIN;
box = orig_rect;
box.right = box.left;
box.bottom = box.top;
// draw a directory listing box right after...
for (pass=0; pass<2; pass++)
{
//if (pass==1)
// GetFont(SIMPLE_FONT)->Begin();
rect = orig_rect;
for (i=first_line; i<last_line; i++)
{
// remove the extension before displaying the filename. also pad w/spaces.
//lstrcpy(str, m_pPresetAddr[i]);
bool bIsDir = (m_presets[i].szFilename.c_str()[0] == '*');
bool bIsRunning = false;
bool bIsSelected = (i == m_nMashPreset[m_nMashSlot]);
if (bIsDir)
{
// directory
if (wcscmp(m_presets[i].szFilename.c_str()+1, L"..")==0)
swprintf(str2, L" [ %s ] (%s) ", m_presets[i].szFilename.c_str()+1, WASABI_API_LNGSTRINGW(IDS_PARENT_DIRECTORY));
else
swprintf(str2, L" [ %s ] ", m_presets[i].szFilename.c_str()+1);
}
else
{
// preset file
lstrcpyW(str, m_presets[i].szFilename.c_str());
RemoveExtension(str);
swprintf(str2, L" %s ", str);
if (wcscmp(m_presets[m_nMashPreset[m_nMashSlot]].szFilename.c_str(), str)==0)
bIsRunning = true;
}
if (bIsRunning && m_bPresetLockedByUser)
lstrcatW(str2, WASABI_API_LNGSTRINGW(IDS_LOCKED));
DWORD color = bIsDir ? DIR_COLOR : PLAYLIST_COLOR_NORMAL;
if (bIsRunning)
color = bIsSelected ? PLAYLIST_COLOR_BOTH : PLAYLIST_COLOR_PLAYING_TRACK;
else if (bIsSelected)
color = PLAYLIST_COLOR_HILITE_TRACK;
RECT r2 = rect;
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), str2, -1, &r2, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX | (pass==0 ? DT_CALCRECT : 0), color, false);
if (pass==0) // calculating dark box
{
box.right = max(box.right, box.left + r2.right-r2.left);
box.bottom += r2.bottom-r2.top;
}
}
//if (pass==1)
// GetFont(SIMPLE_FONT)->End();
if (pass==0) // calculating dark box
{
box.top -= PLAYLIST_INNER_MARGIN;
box.left -= PLAYLIST_INNER_MARGIN;
box.right += PLAYLIST_INNER_MARGIN;
box.bottom += PLAYLIST_INNER_MARGIN;
DrawDarkTranslucentBox(&box);
*upper_left_corner_y = box.bottom + PLAYLIST_INNER_MARGIN;
}
else
orig_rect.top += box.bottom-box.top;
}
orig_rect.top += PLAYLIST_INNER_MARGIN;
}
}
else if (m_UI_mode == UI_LOAD)
{
if (m_nPresets == 0)
{
// note: this error message is repeated in milkdrop.cpp in LoadRandomPreset()
wchar_t buf[1024];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_ERROR_NO_PRESET_FILE_FOUND_IN_X_MILK), m_szPresetDir);
AddError(buf, 6.0f, ERR_MISC, true);
m_UI_mode = UI_REGULAR;
}
else
{
MyTextOut(WASABI_API_LNGSTRINGW(IDS_LOAD_WHICH_PRESET_PLUS_COMMANDS), MTO_UPPER_LEFT, true);
wchar_t buf[MAX_PATH+64];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_DIRECTORY_OF_X), m_szPresetDir);
MyTextOut(buf, MTO_UPPER_LEFT, true);
*upper_left_corner_y += h/2;
RECT rect;
SetRect(&rect, xL, *upper_left_corner_y, xR, *lower_left_corner_y);
rect.top += PLAYLIST_INNER_MARGIN;
rect.left += PLAYLIST_INNER_MARGIN;
rect.right -= PLAYLIST_INNER_MARGIN;
rect.bottom -= PLAYLIST_INNER_MARGIN;
int lines_available = (rect.bottom - rect.top - PLAYLIST_INNER_MARGIN*2) / GetFontHeight(SIMPLE_FONT);
if (lines_available < 1)
{
// force it
rect.bottom = rect.top + GetFontHeight(SIMPLE_FONT) + 1;
lines_available = 1;
}
if (lines_available > MAX_PRESETS_PER_PAGE)
lines_available = MAX_PRESETS_PER_PAGE;
if (m_bUserPagedDown)
{
m_nPresetListCurPos += lines_available;
if (m_nPresetListCurPos >= m_nPresets)
m_nPresetListCurPos = m_nPresets - 1;
// remember this preset's name so the next time they hit 'L' it jumps straight to it
//lstrcpy(m_szLastPresetSelected, m_presets[m_nPresetListCurPos].szFilename.c_str());
m_bUserPagedDown = false;
}
if (m_bUserPagedUp)
{
m_nPresetListCurPos -= lines_available;
if (m_nPresetListCurPos < 0)
m_nPresetListCurPos = 0;
// remember this preset's name so the next time they hit 'L' it jumps straight to it
//lstrcpy(m_szLastPresetSelected, m_presets[m_nPresetListCurPos].szFilename.c_str());
m_bUserPagedUp = false;
}
int i;
int first_line = m_nPresetListCurPos - (m_nPresetListCurPos % lines_available);
int last_line = first_line + lines_available;
wchar_t str[512], str2[512];
if (last_line > m_nPresets)
last_line = m_nPresets;
// tooltip:
if (m_bShowMenuToolTips)
{
wchar_t buf[256];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_PAGE_X_OF_X), m_nPresetListCurPos/lines_available+1, (m_nPresets+lines_available-1)/lines_available);
DrawTooltip(buf, xR, *lower_right_corner_y);
}
RECT orig_rect = rect;
RECT box;
box.top = rect.top;
box.left = rect.left;
box.right = rect.left;
box.bottom = rect.top;
for (int pass=0; pass<2; pass++)
{
//if (pass==1)
// GetFont(SIMPLE_FONT)->Begin();
rect = orig_rect;
for (i=first_line; i<last_line; i++)
{
// remove the extension before displaying the filename. also pad w/spaces.
//lstrcpy(str, m_pPresetAddr[i]);
bool bIsDir = (m_presets[i].szFilename.c_str()[0] == '*');
bool bIsRunning = (i == m_nCurrentPreset);//false;
bool bIsSelected = (i == m_nPresetListCurPos);
if (bIsDir)
{
// directory
if (wcscmp(m_presets[i].szFilename.c_str()+1, L"..")==0)
swprintf(str2, L" [ %s ] (%s) ", m_presets[i].szFilename.c_str()+1, WASABI_API_LNGSTRINGW(IDS_PARENT_DIRECTORY));
else
swprintf(str2, L" [ %s ] ", m_presets[i].szFilename.c_str()+1);
}
else
{
// preset file
lstrcpyW(str, m_presets[i].szFilename.c_str());
RemoveExtension(str);
swprintf(str2, L" %s ", str);
//if (lstrcmp(m_pState->m_szDesc, str)==0)
// bIsRunning = true;
}
if (bIsRunning && m_bPresetLockedByUser)
lstrcatW(str2, WASABI_API_LNGSTRINGW(IDS_LOCKED));
DWORD color = bIsDir ? DIR_COLOR : PLAYLIST_COLOR_NORMAL;
if (bIsRunning)
color = bIsSelected ? PLAYLIST_COLOR_BOTH : PLAYLIST_COLOR_PLAYING_TRACK;
else if (bIsSelected)
color = PLAYLIST_COLOR_HILITE_TRACK;
RECT r2 = rect;
rect.top += m_text.DrawTextW(GetFont(SIMPLE_FONT), str2, -1, &r2, DT_SINGLELINE | DT_END_ELLIPSIS | DT_NOPREFIX | (pass==0 ? DT_CALCRECT : 0), color, false);
if (pass==0) // calculating dark box
{
box.right = max(box.right, box.left + r2.right-r2.left);
box.bottom += r2.bottom-r2.top;
}
}
//if (pass==1)
// GetFont(SIMPLE_FONT)->End();
if (pass==0) // calculating dark box
{
box.top -= PLAYLIST_INNER_MARGIN;
box.left -= PLAYLIST_INNER_MARGIN;
box.right += PLAYLIST_INNER_MARGIN;
box.bottom += PLAYLIST_INNER_MARGIN;
DrawDarkTranslucentBox(&box);
*upper_left_corner_y = box.bottom + PLAYLIST_INNER_MARGIN;
}
}
}
}
}
// 5. render *remaining* text to upper-right corner
{
// e) custom timed message:
if (!m_bWarningsDisabled2)
{
wchar_t buf[512] = {0};
SelectFont(SIMPLE_FONT);
float t = GetTime();
int N = m_errors.size();
for (int i=0; i<N; i++)
{
if (t >= m_errors[i].birthTime && t < m_errors[i].expireTime)
{
swprintf(buf, L"%s ", m_errors[i].msg.c_str());
float age_rel = (t - m_errors[i].birthTime) / (m_errors[i].expireTime - m_errors[i].birthTime);
DWORD cr = (DWORD)(200 - 199*powf(age_rel,4));
DWORD cg = 0;//(DWORD)(136 - 135*powf(age_rel,1));
DWORD cb = 0;
DWORD z = 0xFF000000 | (cr<<16) | (cg<<8) | cb;
MyTextOut_BGCOLOR(buf, MTO_UPPER_RIGHT, true, m_errors[i].bBold ? z : 0xFF000000);
}
else
{
m_errors.erase(m_errors.begin() + i);
i--;
N--;
}
}
}
}
}
//----------------------------------------------------------------------
LRESULT CPlugin::MyWindowProc(HWND hWnd, unsigned uMsg, WPARAM wParam, LPARAM lParam)
{
// You can handle Windows messages here while the plugin is running,
// such as mouse events (WM_MOUSEMOVE/WM_LBUTTONDOWN), keypresses
// (WK_KEYDOWN/WM_CHAR), and so on.
// This function is threadsafe (thanks to Winamp's architecture),
// so you don't have to worry about using semaphores or critical
// sections to read/write your class member variables.
// If you don't handle a message, let it continue on the usual path
// (to Winamp) by returning DefWindowProc(hWnd,uMsg,wParam,lParam).
// If you do handle a message, prevent it from being handled again
// (by Winamp) by returning 0.
// IMPORTANT: For the WM_KEYDOWN, WM_KEYUP, and WM_CHAR messages,
// you must return 0 if you process the message (key),
// and 1 if you do not. DO NOT call DefWindowProc()
// for these particular messages!
USHORT mask = 1 << (sizeof(SHORT)*8 - 1);
bool bShiftHeldDown = (GetKeyState(VK_SHIFT) & mask) != 0;
bool bCtrlHeldDown = (GetKeyState(VK_CONTROL) & mask) != 0;
int nRepeat = 1; //updated as appropriate
int rep;
switch (uMsg)
{
case WM_COMMAND:
switch (LOWORD(wParam))
{
case ID_VIS_NEXT:
NextPreset(m_fBlendTimeUser);
return 0;
case ID_VIS_PREV:
PrevPreset(m_fBlendTimeUser);
return 0;
case ID_VIS_RANDOM:
{
// note: when the vis is launched, if we're using a fancy modern skin
// (with a Random button), it will send us one of these...
// if it's NOT a fancy skin, we'll never get this message (confirmed).
USHORT v = HIWORD(wParam); // here, v is 0 (locked) or 1 (random) or 0xFFFF (don't know / startup!)
if (v==0xFFFF)
{
// plugin just launched or changed modes -
// Winamp wants to know what our saved Random state is...
SendMessage(GetWinampWindow(), WM_WA_IPC, (m_bPresetLockOnAtStartup ? 0 : 1) << 16, IPC_CB_VISRANDOM);
return 0;
}
// otherwise it's 0 or 1 - user clicked the button, we should respond.
v = v ? 1 : 0; // same here
//see also - IPC_CB_VISRANDOM
m_bPresetLockedByUser = (v == 0);
SetScrollLock(m_bPresetLockedByUser, m_bPreventScollLockHandling);
return 0;
}
case ID_VIS_FS:
PostMessage(hWnd, WM_USER + 1667, 0, 0);
return 0;
case ID_VIS_CFG:
ToggleHelp();
return 0;
case ID_VIS_MENU:
POINT pt;
GetCursorPos(&pt);
SendMessage(hWnd, WM_CONTEXTMENU, (WPARAM)hWnd, (pt.y << 16) | pt.x);
return 0;
}
break;
/*
case WM_SETFOCUS:
m_bOrigScrollLockState = GetKeyState(VK_SCROLL) & 1;
SetScrollLock(m_bMilkdropScrollLockState);
return DefWindowProc(hWnd, uMsg, wParam, lParam);
case WM_KILLFOCUS:
m_bMilkdropScrollLockState = GetKeyState(VK_SCROLL) & 1;
SetScrollLock(m_bOrigScrollLockState);
return DefWindowProc(hWnd, uMsg, wParam, lParam);
*/
// this is used to work around a focusing issue when toggling fullscreen
// via the 'fullscreen' button in the bento (and most other) modern skin
case WM_USER+1667:
if (GetFrame() > 0) ToggleFullScreen();
return 0;
case WM_CHAR: // plain & simple alphanumeric keys
nRepeat = LOWORD(lParam);
if (m_waitstring.bActive) // if user is in the middle of editing a string
{
if ((wParam >= ' ' && wParam <= 'z') || wParam=='{' || wParam=='}')
{
int len;
if(m_waitstring.bDisplayAsCode)
len = lstrlenA((char*)m_waitstring.szText);
else
len = lstrlenW(m_waitstring.szText);
if (m_waitstring.bFilterBadChars &&
(wParam == '\"' ||
wParam == '\\' ||
wParam == '/' ||
wParam == ':' ||
wParam == '*' ||
wParam == '?' ||
wParam == '|' ||
wParam == '<' ||
wParam == '>' ||
wParam == '&')) // NOTE: '&' is legal in filenames, but we try to avoid it since during GDI display it acts as a control code (it will not show up, but instead, underline the character following it).
{
// illegal char
AddError(WASABI_API_LNGSTRINGW(IDS_ILLEGAL_CHARACTER), 2.5f, ERR_MISC, true);
}
else if (len+nRepeat >= m_waitstring.nMaxLen)
{
// m_waitstring.szText has reached its limit
AddError(WASABI_API_LNGSTRINGW(IDS_STRING_TOO_LONG), 2.5f, ERR_MISC, true);
}
else
{
//m_fShowUserMessageUntilThisTime = GetTime(); // if there was an error message already, clear it
if(m_waitstring.bDisplayAsCode)
{
char buf[16];
sprintf(buf, "%c", wParam);
if (m_waitstring.nSelAnchorPos != -1)
WaitString_NukeSelection();
if (m_waitstring.bOvertypeMode)
{
// overtype mode
for (rep=0; rep<nRepeat; rep++)
{
if (m_waitstring.nCursorPos == len)
{
lstrcatA((char*)m_waitstring.szText, buf);
len++;
}
else
{
char* ptr = (char*)m_waitstring.szText;
*(ptr + m_waitstring.nCursorPos) = buf[0];
}
m_waitstring.nCursorPos++;
}
}
else
{
// insert mode:
char* ptr = (char*)m_waitstring.szText;
for (rep=0; rep<nRepeat; rep++)
{
for (int i=len; i>=m_waitstring.nCursorPos; i--)
*(ptr + i+1) = *(ptr + i);
*(ptr + m_waitstring.nCursorPos) = buf[0];
m_waitstring.nCursorPos++;
len++;
}
}
}
else
{
wchar_t buf[16];
swprintf(buf, L"%c", wParam);
if (m_waitstring.nSelAnchorPos != -1)
WaitString_NukeSelection();
if (m_waitstring.bOvertypeMode)
{
// overtype mode
for (rep=0; rep<nRepeat; rep++)
{
if (m_waitstring.nCursorPos == len)
{
lstrcatW(m_waitstring.szText, buf);
len++;
}
else
m_waitstring.szText[m_waitstring.nCursorPos] = buf[0];
m_waitstring.nCursorPos++;
}
}
else
{
// insert mode:
for (rep=0; rep<nRepeat; rep++)
{
for (int i=len; i>=m_waitstring.nCursorPos; i--)
m_waitstring.szText[i+1] = m_waitstring.szText[i];
m_waitstring.szText[m_waitstring.nCursorPos] = buf[0];
m_waitstring.nCursorPos++;
len++;
}
}
}
}
}
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_LOAD_DEL) // waiting to confirm file delete
{
if (wParam == keyMappings[0] || wParam == keyMappings[1]) // 'y' or 'Y'
{
// first add pathname to filename
wchar_t szDelFile[512];
swprintf(szDelFile, L"%s%s", GetPresetDir(), m_presets[m_nPresetListCurPos].szFilename.c_str());
DeletePresetFile(szDelFile);
//m_nCurrentPreset = -1;
}
m_UI_mode = UI_LOAD;
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_UPGRADE_PIXEL_SHADER)
{
if (wParam == keyMappings[0] || wParam == keyMappings[1]) // 'y' or 'Y'
{
if (m_pState->m_nMinPSVersion == m_pState->m_nMaxPSVersion)
{
switch(m_pState->m_nMinPSVersion)
{
case MD2_PS_NONE:
m_pState->m_nWarpPSVersion = MD2_PS_2_0;
m_pState->m_nCompPSVersion = MD2_PS_2_0;
m_pState->GenDefaultWarpShader();
m_pState->GenDefaultCompShader();
break;
case MD2_PS_2_0:
m_pState->m_nWarpPSVersion = MD2_PS_2_X;
m_pState->m_nCompPSVersion = MD2_PS_2_X;
break;
case MD2_PS_2_X:
m_pState->m_nWarpPSVersion = MD2_PS_3_0;
m_pState->m_nCompPSVersion = MD2_PS_3_0;
break;
default:
assert(0);
break;
}
}
else
{
switch(m_pState->m_nMinPSVersion)
{
case MD2_PS_NONE:
if (m_pState->m_nWarpPSVersion < MD2_PS_2_0)
{
m_pState->m_nWarpPSVersion = MD2_PS_2_0;
m_pState->GenDefaultWarpShader();
}
if (m_pState->m_nCompPSVersion < MD2_PS_2_0)
{
m_pState->m_nCompPSVersion = MD2_PS_2_0;
m_pState->GenDefaultCompShader();
}
break;
case MD2_PS_2_0:
m_pState->m_nWarpPSVersion = max(m_pState->m_nWarpPSVersion, MD2_PS_2_X);
m_pState->m_nCompPSVersion = max(m_pState->m_nCompPSVersion, MD2_PS_2_X);
break;
case MD2_PS_2_X:
m_pState->m_nWarpPSVersion = max(m_pState->m_nWarpPSVersion, MD2_PS_3_0);
m_pState->m_nCompPSVersion = max(m_pState->m_nCompPSVersion, MD2_PS_3_0);
break;
default:
assert(0);
break;
}
}
m_pState->m_nMinPSVersion = min(m_pState->m_nWarpPSVersion, m_pState->m_nCompPSVersion);
m_pState->m_nMaxPSVersion = max(m_pState->m_nWarpPSVersion, m_pState->m_nCompPSVersion);
LoadShaders(&m_shaders, m_pState, false);
SetMenusForPresetVersion( m_pState->m_nWarpPSVersion, m_pState->m_nCompPSVersion );
}
if (wParam != 13)
m_UI_mode = UI_MENU;
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_SAVE_OVERWRITE) // waiting to confirm overwrite file on save
{
if (wParam == keyMappings[0] || wParam == keyMappings[1]) // 'y' or 'Y'
{
// first add pathname + extension to filename
wchar_t szNewFile[512];
swprintf(szNewFile, L"%s%s.milk", GetPresetDir(), m_waitstring.szText);
SavePresetAs(szNewFile);
// exit waitstring mode
m_UI_mode = UI_REGULAR;
m_waitstring.bActive = false;
//m_bPresetLockedByCode = false;
}
else if ((wParam >= ' ' && wParam <= 'z') || wParam == 27) // 27 is the ESCAPE key
{
// go back to SAVE AS mode
m_UI_mode = UI_SAVEAS;
m_waitstring.bActive = true;
}
return 0; // we processed (or absorbed) the key
}
else // normal handling of a simple key (all non-virtual-key hotkeys end up here)
{
if (HandleRegularKey(wParam)==0)
return 0;
}
return 1; // end case WM_CHAR
case WM_KEYDOWN: // virtual-key codes
// Note that some keys will never reach this point, since they are
// intercepted by the plugin shell (see PluginShellWindowProc(),
// at the end of pluginshell.cpp for which ones).
// For a complete list of virtual-key codes, look up the keyphrase
// "virtual-key codes [win32]" in the msdn help.
nRepeat = LOWORD(lParam);
switch(wParam)
{
case VK_F2: m_bShowSongTitle = !m_bShowSongTitle; return 0; // we processed (or absorbed) the key
case VK_F3:
if (m_bShowSongTime && m_bShowSongLen)
{
m_bShowSongTime = false;
m_bShowSongLen = false;
}
else if (m_bShowSongTime && !m_bShowSongLen)
{
m_bShowSongLen = true;
}
else
{
m_bShowSongTime = true;
m_bShowSongLen = false;
}
return 0; // we processed (or absorbed) the key
case VK_F4: m_bShowPresetInfo = !m_bShowPresetInfo; return 0; // we processed (or absorbed) the key
case VK_F5: m_bShowFPS = !m_bShowFPS; return 0; // we processed (or absorbed) the key
case VK_F6: m_bShowRating = !m_bShowRating; return 0; // we processed (or absorbed) the key
case VK_F7:
if (m_nNumericInputMode == NUMERIC_INPUT_MODE_CUST_MSG)
ReadCustomMessages(); // re-read custom messages
return 0; // we processed (or absorbed) the key
case VK_F8:
{
m_UI_mode = UI_CHANGEDIR;
// enter WaitString mode
m_waitstring.bActive = true;
m_waitstring.bFilterBadChars = false;
m_waitstring.bDisplayAsCode = false;
m_waitstring.nSelAnchorPos = -1;
m_waitstring.nMaxLen = min(sizeof(m_waitstring.szText)-1, MAX_PATH - 1);
lstrcpyW(m_waitstring.szText, GetPresetDir());
{
// for subtle beauty - remove the trailing '\' from the directory name (if it's not just "x:\")
int len = lstrlenW(m_waitstring.szText);
if (len > 3 && m_waitstring.szText[len-1] == '\\')
m_waitstring.szText[len-1] = 0;
}
WASABI_API_LNGSTRINGW_BUF(IDS_DIRECTORY_TO_JUMP_TO, m_waitstring.szPrompt, 512);
m_waitstring.szToolTip[0] = 0;
m_waitstring.nCursorPos = lstrlenW(m_waitstring.szText); // set the starting edit position
}
return 0; // we processed (or absorbed) the key
case VK_F9:
m_bShowShaderHelp = !m_bShowShaderHelp;
return FALSE;
case VK_SCROLL:
m_bPresetLockedByUser = GetKeyState(VK_SCROLL) & 1;
//SetScrollLock(m_bPresetLockedByUser);
SendMessage(GetWinampWindow(), WM_WA_IPC, (m_bPresetLockedByUser ? 0 : 1) << 16, IPC_CB_VISRANDOM);
//int set = m_bPresetLockedByUser ?
//PostMessage(GetWinampWindow(), WM_COMMAND, ID_VIS_RANDOM | (set << 16), 0);
return 0; // we processed (or absorbed) the key
//case VK_F6: break;
//case VK_F7: conflict
//case VK_F8: break;
//case VK_F9: conflict
}
// next handle the waitstring case (for string-editing),
// then the menu navigation case,
// then handle normal case (handle the message normally or pass on to winamp)
// case 1: waitstring mode
if (m_waitstring.bActive)
{
// handle arrow keys, home, end, etc.
USHORT mask = 1 << (sizeof(SHORT)*8 - 1); // we want the highest-order bit
bool bShiftHeldDown = (GetKeyState(VK_SHIFT) & mask) != 0;
bool bCtrlHeldDown = (GetKeyState(VK_CONTROL) & mask) != 0;
if (wParam == VK_LEFT || wParam == VK_RIGHT ||
wParam == VK_HOME || wParam == VK_END ||
wParam == VK_UP || wParam == VK_DOWN)
{
if (bShiftHeldDown)
{
if (m_waitstring.nSelAnchorPos == -1)
m_waitstring.nSelAnchorPos = m_waitstring.nCursorPos;
}
else
{
m_waitstring.nSelAnchorPos = -1;
}
}
if (bCtrlHeldDown) // copy/cut/paste
{
switch(wParam)
{
case 'c':
case 'C':
case VK_INSERT:
WaitString_Copy();
return 0; // we processed (or absorbed) the key
case 'x':
case 'X':
WaitString_Cut();
return 0; // we processed (or absorbed) the key
case 'v':
case 'V':
WaitString_Paste();
return 0; // we processed (or absorbed) the key
case VK_LEFT: WaitString_SeekLeftWord(); return 0; // we processed (or absorbed) the key
case VK_RIGHT: WaitString_SeekRightWord(); return 0; // we processed (or absorbed) the key
case VK_HOME: m_waitstring.nCursorPos = 0; return 0; // we processed (or absorbed) the key
case VK_END:
if (m_waitstring.bDisplayAsCode)
{
m_waitstring.nCursorPos = lstrlenA((char*)m_waitstring.szText);
}
else
{
m_waitstring.nCursorPos = lstrlenW(m_waitstring.szText);
}
return 0; // we processed (or absorbed) the key
case VK_RETURN:
if (m_waitstring.bDisplayAsCode)
{
// CTRL+ENTER accepts the string -> finished editing
//assert(m_pCurMenu);
m_pCurMenu->OnWaitStringAccept(m_waitstring.szText);
// OnWaitStringAccept calls the callback function. See the
// calls to CMenu::AddItem from milkdrop.cpp to find the
// callback functions for different "waitstrings".
m_waitstring.bActive = false;
m_UI_mode = UI_MENU;
}
return 0; // we processed (or absorbed) the key
}
}
else // waitstring mode key pressed, and ctrl NOT held down
{
switch(wParam)
{
case VK_INSERT:
m_waitstring.bOvertypeMode = !m_waitstring.bOvertypeMode;
return 0; // we processed (or absorbed) the key
case VK_LEFT:
for (rep=0; rep<nRepeat; rep++)
if (m_waitstring.nCursorPos > 0)
m_waitstring.nCursorPos--;
return 0; // we processed (or absorbed) the key
case VK_RIGHT:
for (rep=0; rep<nRepeat; rep++)
{
if (m_waitstring.bDisplayAsCode)
{
if (m_waitstring.nCursorPos < (int)lstrlenA((char*)m_waitstring.szText))
m_waitstring.nCursorPos++;
}
else
{
if (m_waitstring.nCursorPos < (int)lstrlenW(m_waitstring.szText))
m_waitstring.nCursorPos++;
}
}
return 0; // we processed (or absorbed) the key
case VK_HOME:
m_waitstring.nCursorPos -= WaitString_GetCursorColumn();
return 0; // we processed (or absorbed) the key
case VK_END:
m_waitstring.nCursorPos += WaitString_GetLineLength() - WaitString_GetCursorColumn();
return 0; // we processed (or absorbed) the key
case VK_UP:
for (rep=0; rep<nRepeat; rep++)
WaitString_SeekUpOneLine();
return 0; // we processed (or absorbed) the key
case VK_DOWN:
for (rep=0; rep<nRepeat; rep++)
WaitString_SeekDownOneLine();
return 0; // we processed (or absorbed) the key
case VK_BACK:
if (m_waitstring.nSelAnchorPos != -1)
{
WaitString_NukeSelection();
}
else if (m_waitstring.nCursorPos > 0)
{
int len;
if (m_waitstring.bDisplayAsCode)
{
len = lstrlenA((char*)m_waitstring.szText);
}
else
{
len = lstrlenW(m_waitstring.szText);
}
int src_pos = m_waitstring.nCursorPos;
int dst_pos = m_waitstring.nCursorPos - nRepeat;
int gap = nRepeat;
int copy_chars = len - m_waitstring.nCursorPos + 1; // includes NULL @ end
if (dst_pos < 0)
{
gap += dst_pos;
//copy_chars += dst_pos;
dst_pos = 0;
}
if (m_waitstring.bDisplayAsCode)
{
char* ptr = (char*)m_waitstring.szText;
for (int i=0; i<copy_chars; i++)
*(ptr + dst_pos+i) = *(ptr + src_pos+i);
}
else
{
for (int i=0; i<copy_chars; i++)
m_waitstring.szText[dst_pos+i] = m_waitstring.szText[src_pos+i];
}
m_waitstring.nCursorPos -= gap;
}
return 0; // we processed (or absorbed) the key
case VK_DELETE:
if (m_waitstring.nSelAnchorPos != -1)
{
WaitString_NukeSelection();
}
else
{
if (m_waitstring.bDisplayAsCode)
{
int len = lstrlenA((char*)m_waitstring.szText);
char* ptr = (char*)m_waitstring.szText;
for (int i=m_waitstring.nCursorPos; i<=len - nRepeat; i++)
*(ptr + i) = *(ptr + i+nRepeat);
}
else
{
int len = lstrlenW(m_waitstring.szText);
for (int i=m_waitstring.nCursorPos; i<=len - nRepeat; i++)
m_waitstring.szText[i] = m_waitstring.szText[i+nRepeat];
}
}
return 0; // we processed (or absorbed) the key
case VK_RETURN:
if (m_UI_mode == UI_LOAD_RENAME) // rename (move) the file
{
// first add pathnames to filenames
wchar_t szOldFile[512];
wchar_t szNewFile[512];
lstrcpyW(szOldFile, GetPresetDir());
lstrcpyW(szNewFile, GetPresetDir());
lstrcatW(szOldFile, m_presets[m_nPresetListCurPos].szFilename.c_str());
lstrcatW(szNewFile, m_waitstring.szText);
lstrcatW(szNewFile, L".milk");
RenamePresetFile(szOldFile, szNewFile);
}
else if (m_UI_mode == UI_IMPORT_WAVE ||
m_UI_mode == UI_EXPORT_WAVE ||
m_UI_mode == UI_IMPORT_SHAPE ||
m_UI_mode == UI_EXPORT_SHAPE)
{
int bWave = (m_UI_mode == UI_IMPORT_WAVE || m_UI_mode == UI_EXPORT_WAVE);
int bImport = (m_UI_mode == UI_IMPORT_WAVE || m_UI_mode == UI_IMPORT_SHAPE);
int i = m_pCurMenu->GetCurItem()->m_lParam;
int ret;
switch(m_UI_mode)
{
case UI_IMPORT_WAVE : ret = m_pState->m_wave[i].Import(NULL, m_waitstring.szText, 0); break;
case UI_EXPORT_WAVE : ret = m_pState->m_wave[i].Export(NULL, m_waitstring.szText, 0); break;
case UI_IMPORT_SHAPE: ret = m_pState->m_shape[i].Import(NULL, m_waitstring.szText, 0); break;
case UI_EXPORT_SHAPE: ret = m_pState->m_shape[i].Export(NULL, m_waitstring.szText, 0); break;
}
if (bImport)
m_pState->RecompileExpressions(1);
//m_fShowUserMessageUntilThisTime = GetTime() - 1.0f; // if there was an error message already, clear it
if (!ret)
{
wchar_t buf[1024];
if (m_UI_mode==UI_IMPORT_WAVE || m_UI_mode==UI_IMPORT_SHAPE)
WASABI_API_LNGSTRINGW_BUF(IDS_ERROR_IMPORTING_BAD_FILENAME, buf, 1024);
else
WASABI_API_LNGSTRINGW_BUF(IDS_ERROR_IMPORTING_BAD_FILENAME_OR_NOT_OVERWRITEABLE, buf, 1024);
AddError(WASABI_API_LNGSTRINGW(IDS_STRING_TOO_LONG), 2.5f, ERR_MISC, true);
}
m_waitstring.bActive = false;
m_UI_mode = UI_MENU;
//m_bPresetLockedByCode = false;
}
else if (m_UI_mode == UI_SAVEAS)
{
// first add pathname + extension to filename
wchar_t szNewFile[512];
swprintf(szNewFile, L"%s%s.milk", GetPresetDir(), m_waitstring.szText);
if (GetFileAttributesW(szNewFile) != -1) // check if file already exists
{
// file already exists -> overwrite it?
m_waitstring.bActive = false;
m_UI_mode = UI_SAVE_OVERWRITE;
}
else
{
SavePresetAs(szNewFile);
// exit waitstring mode
m_UI_mode = UI_REGULAR;
m_waitstring.bActive = false;
//m_bPresetLockedByCode = false;
}
}
else if (m_UI_mode == UI_EDIT_MENU_STRING)
{
if (m_waitstring.bDisplayAsCode)
{
if (m_waitstring.nSelAnchorPos != -1)
WaitString_NukeSelection();
int len = lstrlenA((char*)m_waitstring.szText);
char* ptr = (char*)m_waitstring.szText;
if (len + 1 < m_waitstring.nMaxLen)
{
// insert a linefeed. Use CTRL+return to accept changes in this case.
for (int pos=len+1; pos > m_waitstring.nCursorPos; pos--)
*(ptr + pos) = *(ptr + pos - 1);
*(ptr + m_waitstring.nCursorPos++) = LINEFEED_CONTROL_CHAR;
//m_fShowUserMessageUntilThisTime = GetTime() - 1.0f; // if there was an error message already, clear it
}
else
{
// m_waitstring.szText has reached its limit
AddError(WASABI_API_LNGSTRINGW(IDS_STRING_TOO_LONG), 2.5f, ERR_MISC, true);
}
}
else
{
// finished editing
//assert(m_pCurMenu);
m_pCurMenu->OnWaitStringAccept(m_waitstring.szText);
// OnWaitStringAccept calls the callback function. See the
// calls to CMenu::AddItem from milkdrop.cpp to find the
// callback functions for different "waitstrings".
m_waitstring.bActive = false;
m_UI_mode = UI_MENU;
}
}
else if (m_UI_mode == UI_CHANGEDIR)
{
//m_fShowUserMessageUntilThisTime = GetTime(); // if there was an error message already, clear it
// change dir
wchar_t szOldDir[512];
wchar_t szNewDir[512];
lstrcpyW(szOldDir, g_plugin.m_szPresetDir);
lstrcpyW(szNewDir, m_waitstring.szText);
int len = lstrlenW(szNewDir);
if (len > 0 && szNewDir[len-1] != L'\\')
lstrcatW(szNewDir, L"\\");
lstrcpyW(g_plugin.m_szPresetDir, szNewDir);
bool bSuccess = true;
if (GetFileAttributesW(g_plugin.m_szPresetDir) == -1)
bSuccess = false;
if (bSuccess) {
UpdatePresetList(false,true,false);
bSuccess = (m_nPresets > 0);
}
if (!bSuccess)
{
// new dir. was invalid -> allow them to try again
lstrcpyW(g_plugin.m_szPresetDir, szOldDir);
// give them a warning
AddError(WASABI_API_LNGSTRINGW(IDS_INVALID_PATH), 3.5f, ERR_MISC, true);
}
else
{
// success
lstrcpyW(g_plugin.m_szPresetDir, szNewDir);
// save new path to registry
WritePrivateProfileStringW(L"settings",L"szPresetDir",g_plugin.m_szPresetDir,GetConfigIniFile());
// set current preset index to -1 because current preset is no longer in the list
m_nCurrentPreset = -1;
// go to file load menu
m_waitstring.bActive = false;
m_UI_mode = UI_LOAD;
ClearErrors(ERR_MISC);
}
}
return 0; // we processed (or absorbed) the key
case VK_ESCAPE:
if (m_UI_mode == UI_LOAD_RENAME)
{
m_waitstring.bActive = false;
m_UI_mode = UI_LOAD;
}
else if (
m_UI_mode == UI_SAVEAS ||
m_UI_mode == UI_SAVE_OVERWRITE ||
m_UI_mode == UI_EXPORT_SHAPE ||
m_UI_mode == UI_IMPORT_SHAPE ||
m_UI_mode == UI_EXPORT_WAVE ||
m_UI_mode == UI_IMPORT_WAVE)
{
//m_bPresetLockedByCode = false;
m_waitstring.bActive = false;
m_UI_mode = UI_REGULAR;
}
else if (m_UI_mode == UI_EDIT_MENU_STRING)
{
m_waitstring.bActive = false;
if (m_waitstring.bDisplayAsCode) // if were editing code...
m_UI_mode = UI_MENU; // return to menu
else
m_UI_mode = UI_REGULAR; // otherwise don't (we might have been editing a filename, for example)
}
else /*if (m_UI_mode == UI_EDIT_MENU_STRING || m_UI_mode == UI_CHANGEDIR || 1)*/
{
m_waitstring.bActive = false;
m_UI_mode = UI_REGULAR;
}
return 0; // we processed (or absorbed) the key
}
}
// don't let keys go anywhere else
return 0; // we processed (or absorbed) the key
}
// case 2: menu is up & gets the keyboard input
if (m_UI_mode == UI_MENU)
{
//assert(m_pCurMenu);
if (m_pCurMenu->HandleKeydown(hWnd, uMsg, wParam, lParam) == 0)
return 0; // we processed (or absorbed) the key
}
// case 3: handle non-character keys (virtual keys) and return 0.
// if we don't handle them, return 1, and the shell will
// (passing some to the shell's key bindings, some to Winamp,
// and some to DefWindowProc)
// note: regular hotkeys should be handled in HandleRegularKey.
switch(wParam)
{
case VK_LEFT:
case VK_RIGHT:
if (m_UI_mode == UI_LOAD)
{
// it's annoying when the music skips if you hit the left arrow from the Load menu, so instead, we exit the menu
if (wParam == VK_LEFT) m_UI_mode = UI_REGULAR;
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_UPGRADE_PIXEL_SHADER)
{
m_UI_mode = UI_MENU;
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_MASHUP)
{
if (wParam==VK_LEFT)
m_nMashSlot = max(0, m_nMashSlot-1);
else
m_nMashSlot = min(MASH_SLOTS-1, m_nMashSlot+1);
return 0; // we processed (or absorbed) the key
}
break;
case VK_ESCAPE:
if (m_UI_mode == UI_LOAD || m_UI_mode == UI_MENU || m_UI_mode == UI_MASHUP)
{
m_UI_mode = UI_REGULAR;
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_LOAD_DEL)
{
m_UI_mode = UI_LOAD;
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_UPGRADE_PIXEL_SHADER)
{
m_UI_mode = UI_MENU;
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_SAVE_OVERWRITE)
{
m_UI_mode = UI_SAVEAS;
// return to waitstring mode, leaving all the parameters as they were before:
m_waitstring.bActive = true;
return 0; // we processed (or absorbed) the key
}
/*else if (hwnd == GetPluginWindow()) // (don't close on ESC for text window)
{
dumpmsg("User pressed ESCAPE");
//m_bExiting = true;
PostMessage(hwnd, WM_CLOSE, 0, 0);
return 0; // we processed (or absorbed) the key
}*/
break;
case VK_UP:
if (m_UI_mode == UI_MASHUP)
{
for (rep=0; rep<nRepeat; rep++)
m_nMashPreset[m_nMashSlot] = max(m_nMashPreset[m_nMashSlot]-1, m_nDirs);
m_nLastMashChangeFrame[m_nMashSlot] = GetFrame(); // causes delayed apply
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_LOAD)
{
for (rep=0; rep<nRepeat; rep++)
if (m_nPresetListCurPos > 0)
m_nPresetListCurPos--;
return 0; // we processed (or absorbed) the key
// remember this preset's name so the next time they hit 'L' it jumps straight to it
//lstrcpy(m_szLastPresetSelected, m_presets[m_nPresetListCurPos].szFilename.c_str());
}
break;
case VK_DOWN:
if (m_UI_mode == UI_MASHUP)
{
for (rep=0; rep<nRepeat; rep++)
m_nMashPreset[m_nMashSlot] = min(m_nMashPreset[m_nMashSlot]+1, m_nPresets-1);
m_nLastMashChangeFrame[m_nMashSlot] = GetFrame(); // causes delayed apply
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_LOAD)
{
for (rep=0; rep<nRepeat; rep++)
if (m_nPresetListCurPos < m_nPresets - 1)
m_nPresetListCurPos++;
return 0; // we processed (or absorbed) the key
// remember this preset's name so the next time they hit 'L' it jumps straight to it
//lstrcpy(m_szLastPresetSelected, m_presets[m_nPresetListCurPos].szFilename.c_str());
}
break;
case VK_SPACE:
if (m_UI_mode == UI_LOAD)
goto HitEnterFromLoadMenu;
if (!m_bPresetLockedByCode)
{
LoadRandomPreset(m_fBlendTimeUser);
return 0; // we processed (or absorbed) the key
}
break;
case VK_PRIOR:
if (m_UI_mode == UI_LOAD || m_UI_mode == UI_MASHUP)
{
m_bUserPagedUp = true;
if (m_UI_mode == UI_MASHUP)
m_nLastMashChangeFrame[m_nMashSlot] = GetFrame(); // causes delayed apply
return 0; // we processed (or absorbed) the key
}
break;
case VK_NEXT:
if (m_UI_mode == UI_LOAD || m_UI_mode == UI_MASHUP)
{
m_bUserPagedDown = true;
if (m_UI_mode == UI_MASHUP)
m_nLastMashChangeFrame[m_nMashSlot] = GetFrame(); // causes delayed apply
return 0; // we processed (or absorbed) the key
}
break;
case VK_HOME:
if (m_UI_mode == UI_LOAD)
{
m_nPresetListCurPos = 0;
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_MASHUP)
{
m_nMashPreset[m_nMashSlot] = m_nDirs;
m_nLastMashChangeFrame[m_nMashSlot] = GetFrame(); // causes delayed apply
return 0; // we processed (or absorbed) the key
}
break;
case VK_END:
if (m_UI_mode == UI_LOAD)
{
m_nPresetListCurPos = m_nPresets - 1;
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_MASHUP)
{
m_nMashPreset[m_nMashSlot] = m_nPresets-1;
m_nLastMashChangeFrame[m_nMashSlot] = GetFrame(); // causes delayed apply
return 0; // we processed (or absorbed) the key
}
break;
case VK_DELETE:
if (m_UI_mode == UI_LOAD)
{
if (m_presets[m_nPresetListCurPos].szFilename.c_str()[0] != '*') // can't delete directories
m_UI_mode = UI_LOAD_DEL;
return 0; // we processed (or absorbed) the key
}
else //if (m_nNumericInputDigits == 0)
{
if (m_nNumericInputMode == NUMERIC_INPUT_MODE_CUST_MSG)
{
m_nNumericInputDigits = 0;
m_nNumericInputNum = 0;
// stop display of text message.
m_supertext.fStartTime = -1.0f;
return 0; // we processed (or absorbed) the key
}
else if (m_nNumericInputMode == NUMERIC_INPUT_MODE_SPRITE)
{
// kill newest sprite (regular DELETE key)
// oldest sprite (SHIFT + DELETE),
// or all sprites (CTRL + SHIFT + DELETE).
m_nNumericInputDigits = 0;
m_nNumericInputNum = 0;
USHORT mask = 1 << (sizeof(SHORT)*8 - 1); // we want the highest-order bit
bool bShiftHeldDown = (GetKeyState(VK_SHIFT) & mask) != 0;
bool bCtrlHeldDown = (GetKeyState(VK_CONTROL) & mask) != 0;
if (bShiftHeldDown && bCtrlHeldDown)
{
for (int x=0; x<NUM_TEX; x++)
m_texmgr.KillTex(x);
}
else
{
int newest = -1;
int frame;
for (int x=0; x<NUM_TEX; x++)
{
if (m_texmgr.m_tex[x].pSurface)
{
if ((newest == -1) ||
(!bShiftHeldDown && m_texmgr.m_tex[x].nStartFrame > frame) ||
(bShiftHeldDown && m_texmgr.m_tex[x].nStartFrame < frame))
{
newest = x;
frame = m_texmgr.m_tex[x].nStartFrame;
}
}
}
if (newest != -1)
m_texmgr.KillTex(newest);
}
return 0; // we processed (or absorbed) the key
}
}
break;
case VK_INSERT: // RENAME
if (m_UI_mode == UI_LOAD)
{
if (m_presets[m_nPresetListCurPos].szFilename.c_str()[0] != '*') // can't rename directories
{
// go into RENAME mode
m_UI_mode = UI_LOAD_RENAME;
m_waitstring.bActive = true;
m_waitstring.bFilterBadChars = true;
m_waitstring.bDisplayAsCode = false;
m_waitstring.nSelAnchorPos = -1;
m_waitstring.nMaxLen = min(sizeof(m_waitstring.szText)-1, MAX_PATH - lstrlenW(GetPresetDir()) - 6); // 6 for the extension + null char. We set this because win32 LoadFile, MoveFile, etc. barf if the path+filename+ext are > MAX_PATH chars.
// initial string is the filename, minus the extension
lstrcpyW(m_waitstring.szText, m_presets[m_nPresetListCurPos].szFilename.c_str());
RemoveExtension(m_waitstring.szText);
// set the prompt & 'tooltip'
swprintf(m_waitstring.szPrompt, WASABI_API_LNGSTRINGW(IDS_ENTER_THE_NEW_NAME_FOR_X), m_waitstring.szText);
m_waitstring.szToolTip[0] = 0;
// set the starting edit position
m_waitstring.nCursorPos = lstrlenW(m_waitstring.szText);
}
return 0; // we processed (or absorbed) the key
}
break;
case VK_RETURN:
if (m_UI_mode == UI_MASHUP)
{
m_nLastMashChangeFrame[m_nMashSlot] = GetFrame() + MASH_APPLY_DELAY_FRAMES; // causes instant apply
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_LOAD)
{
HitEnterFromLoadMenu:
if (m_presets[m_nPresetListCurPos].szFilename.c_str()[0] == '*')
{
// CHANGE DIRECTORY
wchar_t *p = GetPresetDir();
if (wcscmp(m_presets[m_nPresetListCurPos].szFilename.c_str(), L"*..") == 0)
{
// back up one dir
wchar_t *p2 = wcsrchr(p, L'\\');
if (p2)
{
*p2 = 0;
p2 = wcsrchr(p, L'\\');
if (p2) *(p2+1) = 0;
}
}
else
{
// open subdir
lstrcatW(p, &m_presets[m_nPresetListCurPos].szFilename.c_str()[1]);
lstrcatW(p, L"\\");
}
WritePrivateProfileStringW(L"settings",L"szPresetDir",GetPresetDir(),GetConfigIniFile());
UpdatePresetList(false, true, false);
// set current preset index to -1 because current preset is no longer in the list
m_nCurrentPreset = -1;
}
else
{
// LOAD NEW PRESET
m_nCurrentPreset = m_nPresetListCurPos;
// first take the filename and prepend the path. (already has extension)
wchar_t s[MAX_PATH];
lstrcpyW(s, GetPresetDir()); // note: m_szPresetDir always ends with '\'
lstrcatW(s, m_presets[m_nCurrentPreset].szFilename.c_str());
// now load (and blend to) the new preset
m_presetHistoryPos = (m_presetHistoryPos+1) % PRESET_HIST_LEN;
LoadPreset(s, (wParam==VK_SPACE) ? m_fBlendTimeUser : 0);
}
return 0; // we processed (or absorbed) the key
}
break;
case VK_BACK:
// pass on to parent
//PostMessage(m_hWndParent,message,wParam,lParam);
PrevPreset(0);
m_fHardCutThresh *= 2.0f; // make it a little less likely that a random hard cut follows soon.
//m_nNumericInputDigits = 0;
//m_nNumericInputNum = 0;
return 0;
case 'T':
if (bCtrlHeldDown)
{
// stop display of custom message or song title.
m_supertext.fStartTime = -1.0f;
return 0;
}
break;
case 'K':
if (bCtrlHeldDown) // kill all sprites
{
for (int x=0; x<NUM_TEX; x++)
if (m_texmgr.m_tex[x].pSurface)
m_texmgr.KillTex(x);
return 0;
}
break;
/*case keyMappings[2]: // 'Y'
if (bCtrlHeldDown) // stop display of custom message or song title.
{
m_supertext.fStartTime = -1.0f;
return 0;
}
break;*/
}
if (wParam == keyMappings[2]) // 'Y'
{
if (bCtrlHeldDown) // stop display of custom message or song title.
{
m_supertext.fStartTime = -1.0f;
return 0;
}
}
return 1; // end case WM_KEYDOWN
case WM_KEYUP:
return 1;
break;
default:
return DefWindowProcW(hWnd, uMsg, wParam, lParam);
break;
}
return 0;
};
//----------------------------------------------------------------------
int CPlugin::HandleRegularKey(WPARAM wParam)
{
// here we handle all the normal keys for milkdrop-
// these are the hotkeys that are used when you're not
// in the middle of editing a string, navigating a menu, etc.
// do not make references to virtual keys here; only
// straight WM_CHAR messages should be sent in.
// return 0 if you process/absorb the key; otherwise return 1.
if (m_UI_mode == UI_LOAD && ((wParam >= 'A' && wParam <= 'Z') || (wParam >= 'a' && wParam <= 'z')))
{
SeekToPreset((char)wParam);
return 0; // we processed (or absorbed) the key
}
else if (m_UI_mode == UI_MASHUP && wParam >= '1' && wParam <= ('0' + MASH_SLOTS))
{
m_nMashSlot = wParam - '1';
}
else switch(wParam)
{
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
{
int digit = wParam - '0';
m_nNumericInputNum = (m_nNumericInputNum*10) + digit;
m_nNumericInputDigits++;
if (m_nNumericInputDigits >= 2)
{
if (m_nNumericInputMode == NUMERIC_INPUT_MODE_CUST_MSG)
LaunchCustomMessage(m_nNumericInputNum);
else if (m_nNumericInputMode == NUMERIC_INPUT_MODE_SPRITE)
LaunchSprite(m_nNumericInputNum, -1);
else if (m_nNumericInputMode == NUMERIC_INPUT_MODE_SPRITE_KILL)
{
for (int x=0; x<NUM_TEX; x++)
if (m_texmgr.m_tex[x].nUserData == m_nNumericInputNum)
m_texmgr.KillTex(x);
}
m_nNumericInputDigits = 0;
m_nNumericInputNum = 0;
}
}
return 0; // we processed (or absorbed) the key
// row 1 keys
case 'q':
m_pState->m_fVideoEchoZoom /= 1.05f;
return 0; // we processed (or absorbed) the key
case 'Q':
m_pState->m_fVideoEchoZoom *= 1.05f;
return 0; // we processed (or absorbed) the key
case 'w':
m_pState->m_nWaveMode++;
if (m_pState->m_nWaveMode >= NUM_WAVES) m_pState->m_nWaveMode = 0;
return 0; // we processed (or absorbed) the key
case 'W':
m_pState->m_nWaveMode--;
if (m_pState->m_nWaveMode < 0) m_pState->m_nWaveMode = NUM_WAVES - 1;
return 0; // we processed (or absorbed) the key
case 'e':
m_pState->m_fWaveAlpha -= 0.1f;
if (m_pState->m_fWaveAlpha.eval(-1) < 0.0f) m_pState->m_fWaveAlpha = 0.0f;
return 0; // we processed (or absorbed) the key
case 'E':
m_pState->m_fWaveAlpha += 0.1f;
//if (m_pState->m_fWaveAlpha.eval(-1) > 1.0f) m_pState->m_fWaveAlpha = 1.0f;
return 0; // we processed (or absorbed) the key
case 'I': m_pState->m_fZoom -= 0.01f; return 0; // we processed (or absorbed) the key
case 'i': m_pState->m_fZoom += 0.01f; return 0; // we processed (or absorbed) the key
case 'n':
case 'N':
m_bShowDebugInfo = !m_bShowDebugInfo;
return 0; // we processed (or absorbed) the key
case 'r':
m_bSequentialPresetOrder = !m_bSequentialPresetOrder;
{
wchar_t buf[1024], tmp[64];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_PRESET_ORDER_IS_NOW_X),
WASABI_API_LNGSTRINGW_BUF((m_bSequentialPresetOrder) ? IDS_SEQUENTIAL : IDS_RANDOM, tmp, 64));
AddError(buf, 3.0f, ERR_NOTIFY, false);
}
// erase all history, too:
m_presetHistory[0] = m_szCurrentPresetFile;
m_presetHistoryPos = 0;
m_presetHistoryFwdFence = 1;
m_presetHistoryBackFence = 0;
return 0; // we processed (or absorbed) the key
case 'u':
case 'U':
if (SendMessage(GetWinampWindow(),WM_USER,0,250))
AddError(WASABI_API_LNGSTRINGW(IDS_SHUFFLE_IS_NOW_OFF), 3.0f, ERR_NOTIFY, false);
else
AddError(WASABI_API_LNGSTRINGW(IDS_SHUFFLE_IS_NOW_ON), 3.0f, ERR_NOTIFY, false);
//m_fShowUserMessageUntilThisTime = GetTime() + 4.0f;
// toggle shuffle
PostMessage(GetWinampWindow(),WM_COMMAND,40023,0);
return 0; // we processed (or absorbed) the key
/*
case 'u': m_pState->m_fWarpScale /= 1.1f; break;
case 'U': m_pState->m_fWarpScale *= 1.1f; break;
case 'i': m_pState->m_fWarpAnimSpeed /= 1.1f; break;
case 'I': m_pState->m_fWarpAnimSpeed *= 1.1f; break;
*/
case 't':
case 'T':
LaunchSongTitleAnim();
return 0; // we processed (or absorbed) the key
case 'o': m_pState->m_fWarpAmount /= 1.1f; return 0; // we processed (or absorbed) the key
case 'O': m_pState->m_fWarpAmount *= 1.1f; return 0; // we processed (or absorbed) the key
case '!':
// randomize warp shader
{
bool bWarpLock = m_bWarpShaderLock;
wchar_t szOldPreset[MAX_PATH];
lstrcpyW(szOldPreset, m_szCurrentPresetFile);
m_bWarpShaderLock = false;
LoadRandomPreset(0.0f);
m_bWarpShaderLock = true;
LoadPreset(szOldPreset, 0.0f);
m_bWarpShaderLock = bWarpLock;
}
break;
case '@':
// randomize comp shader
{
bool bCompLock = m_bCompShaderLock;
wchar_t szOldPreset[MAX_PATH];
lstrcpyW(szOldPreset, m_szCurrentPresetFile);
m_bCompShaderLock = false;
LoadRandomPreset(0.0f);
m_bCompShaderLock = true;
LoadPreset(szOldPreset, 0.0f);
m_bCompShaderLock = bCompLock;
}
break;
case 'a':
case 'A':
// load a random preset, a random warp shader, and a random comp shader.
// not quite as extreme as a mash-up.
{
bool bCompLock = m_bCompShaderLock;
bool bWarpLock = m_bWarpShaderLock;
m_bCompShaderLock = false; m_bWarpShaderLock = false;
LoadRandomPreset(0.0f);
m_bCompShaderLock = true; m_bWarpShaderLock = false;
LoadRandomPreset(0.0f);
m_bCompShaderLock = false; m_bWarpShaderLock = true;
LoadRandomPreset(0.0f);
m_bCompShaderLock = bCompLock;
m_bWarpShaderLock = bWarpLock;
}
break;
case 'd':
case 'D':
if (!m_bCompShaderLock && !m_bWarpShaderLock) {
m_bCompShaderLock = true; m_bWarpShaderLock = false;
AddError(WASABI_API_LNGSTRINGW(IDS_COMPSHADER_LOCKED), 3.0f, ERR_NOTIFY, false);
} else if (m_bCompShaderLock && !m_bWarpShaderLock) {
m_bCompShaderLock = false; m_bWarpShaderLock = true;
AddError(WASABI_API_LNGSTRINGW(IDS_WARPSHADER_LOCKED), 3.0f, ERR_NOTIFY, false);
} else if (!m_bCompShaderLock && m_bWarpShaderLock) {
m_bCompShaderLock = true; m_bWarpShaderLock = true;
AddError(WASABI_API_LNGSTRINGW(IDS_ALLSHADERS_LOCKED), 3.0f, ERR_NOTIFY, false);
} else {
m_bCompShaderLock = false; m_bWarpShaderLock = false;
AddError(WASABI_API_LNGSTRINGW(IDS_ALLSHADERS_UNLOCKED), 3.0f, ERR_NOTIFY, false);
}
break;
// row 2 keys
// 'A' KEY IS FREE!!
// 'D' KEY IS FREE!!
/*case 'a':
m_pState->m_fVideoEchoAlpha -= 0.1f;
if (m_pState->m_fVideoEchoAlpha.eval(-1) < 0) m_pState->m_fVideoEchoAlpha = 0;
return 0; // we processed (or absorbed) the key
case 'A':
m_pState->m_fVideoEchoAlpha += 0.1f;
if (m_pState->m_fVideoEchoAlpha.eval(-1) > 1.0f) m_pState->m_fVideoEchoAlpha = 1.0f;
return 0; // we processed (or absorbed) the key
case 'd':
m_pState->m_fDecay += 0.01f;
if (m_pState->m_fDecay.eval(-1) > 1.0f) m_pState->m_fDecay = 1.0f;
return 0; // we processed (or absorbed) the key
case 'D':
m_pState->m_fDecay -= 0.01f;
if (m_pState->m_fDecay.eval(-1) < 0.9f) m_pState->m_fDecay = 0.9f;
return 0; // we processed (or absorbed) the key*/
case 'h':
case 'H':
// instant hard cut
if (m_UI_mode == UI_MASHUP)
{
if (wParam=='h')
{
m_nMashPreset[m_nMashSlot] = m_nDirs + (warand() % (m_nPresets-m_nDirs));
m_nLastMashChangeFrame[m_nMashSlot] = GetFrame() + MASH_APPLY_DELAY_FRAMES; // causes instant apply
}
else
{
for (int mash=0; mash<MASH_SLOTS; mash++)
{
m_nMashPreset[mash] = m_nDirs + (warand() % (m_nPresets-m_nDirs));
m_nLastMashChangeFrame[mash] = GetFrame() + MASH_APPLY_DELAY_FRAMES; // causes instant apply
}
}
}
else
{
NextPreset(0);
m_fHardCutThresh *= 2.0f; // make it a little less likely that a random hard cut follows soon.
}
return 0; // we processed (or absorbed) the key
case 'f':
case 'F':
m_pState->m_nVideoEchoOrientation = (m_pState->m_nVideoEchoOrientation + 1) % 4;
return 0; // we processed (or absorbed) the key
case 'g':
m_pState->m_fGammaAdj -= 0.1f;
if (m_pState->m_fGammaAdj.eval(-1) < 0.0f) m_pState->m_fGammaAdj = 0.0f;
return 0; // we processed (or absorbed) the key
case 'G':
m_pState->m_fGammaAdj += 0.1f;
//if (m_pState->m_fGammaAdj > 1.0f) m_pState->m_fGammaAdj = 1.0f;
return 0; // we processed (or absorbed) the key
case 'j':
m_pState->m_fWaveScale *= 0.9f;
return 0; // we processed (or absorbed) the key
case 'J':
m_pState->m_fWaveScale /= 0.9f;
return 0; // we processed (or absorbed) the key
case 'k':
case 'K':
{
USHORT mask = 1 << (sizeof(SHORT)*8 - 1); // we want the highest-order bit
bool bShiftHeldDown = (GetKeyState(VK_SHIFT) & mask) != 0;
if (bShiftHeldDown)
m_nNumericInputMode = NUMERIC_INPUT_MODE_SPRITE_KILL;
else
m_nNumericInputMode = NUMERIC_INPUT_MODE_SPRITE;
m_nNumericInputNum = 0;
m_nNumericInputDigits = 0;
}
return 0; // we processed (or absorbed) the key
// row 3/misc. keys
case '[':
m_pState->m_fXPush -= 0.005f;
return 0; // we processed (or absorbed) the key
case ']':
m_pState->m_fXPush += 0.005f;
return 0; // we processed (or absorbed) the key
case '{':
m_pState->m_fYPush -= 0.005f;
return 0; // we processed (or absorbed) the key
case '}':
m_pState->m_fYPush += 0.005f;
return 0; // we processed (or absorbed) the key
case '<':
m_pState->m_fRot += 0.02f;
return 0; // we processed (or absorbed) the key
case '>':
m_pState->m_fRot -= 0.02f;
return 0; // we processed (or absorbed) the key
case 's': // SAVE PRESET
case 'S':
if (m_UI_mode == UI_REGULAR)
{
//m_bPresetLockedByCode = true;
m_UI_mode = UI_SAVEAS;
// enter WaitString mode
m_waitstring.bActive = true;
m_waitstring.bFilterBadChars = true;
m_waitstring.bDisplayAsCode = false;
m_waitstring.nSelAnchorPos = -1;
m_waitstring.nMaxLen = min(sizeof(m_waitstring.szText)-1, MAX_PATH - lstrlenW(GetPresetDir()) - 6); // 6 for the extension + null char. We set this because win32 LoadFile, MoveFile, etc. barf if the path+filename+ext are > MAX_PATH chars.
lstrcpyW(m_waitstring.szText, m_pState->m_szDesc); // initial string is the filename, minus the extension
WASABI_API_LNGSTRINGW_BUF(IDS_SAVE_AS,m_waitstring.szPrompt,512);
m_waitstring.szToolTip[0] = 0;
m_waitstring.nCursorPos = lstrlenW(m_waitstring.szText); // set the starting edit position
return 0;
}
break;
case 'l': // LOAD PRESET
case 'L':
if (m_UI_mode == UI_LOAD)
{
m_UI_mode = UI_REGULAR;
return 0; // we processed (or absorbed) the key
}
else if (
m_UI_mode == UI_REGULAR ||
m_UI_mode == UI_MENU)
{
UpdatePresetList(); // make sure list is completely ready
m_UI_mode = UI_LOAD;
m_bUserPagedUp = false;
m_bUserPagedDown = false;
return 0; // we processed (or absorbed) the key
}
break;
case 'm':
case 'M':
if (m_UI_mode == UI_MENU)
m_UI_mode = UI_REGULAR;
else if (m_UI_mode == UI_REGULAR || m_UI_mode == UI_LOAD)
m_UI_mode = UI_MENU;
return 0; // we processed (or absorbed) the key
case '-':
SetCurrentPresetRating(m_pState->m_fRating - 1.0f);
return 0; // we processed (or absorbed) the key
case '+':
SetCurrentPresetRating(m_pState->m_fRating + 1.0f);
return 0; // we processed (or absorbed) the key
case '*':
m_nNumericInputDigits = 0;
m_nNumericInputNum = 0;
return 0;
}
if (wParam == keyMappings[3] || wParam == keyMappings[4]) // 'y' or 'Y'
{
m_nNumericInputMode = NUMERIC_INPUT_MODE_CUST_MSG;
m_nNumericInputNum = 0;
m_nNumericInputDigits = 0;
return 0; // we processed (or absorbed) the key
}
return 1;
}
//----------------------------------------------------------------------
void CPlugin::RefreshTab2(HWND hwnd)
{
ShowWindow(GetDlgItem(hwnd, IDC_BRIGHT_SLIDER), !m_bAutoGamma);
ShowWindow(GetDlgItem(hwnd, IDC_T1), !m_bAutoGamma);
ShowWindow(GetDlgItem(hwnd, IDC_T2), !m_bAutoGamma);
ShowWindow(GetDlgItem(hwnd, IDC_T3), !m_bAutoGamma);
ShowWindow(GetDlgItem(hwnd, IDC_T4), !m_bAutoGamma);
ShowWindow(GetDlgItem(hwnd, IDC_T5), !m_bAutoGamma);
}
int CALLBACK MyEnumFontsProc(
CONST LOGFONT *lplf, // logical-font data
CONST TEXTMETRIC *lptm, // physical-font data
DWORD dwType, // font type
LPARAM lpData // application-defined data
)
{
SendMessage( GetDlgItem( (HWND)lpData, IDC_FONT3), CB_ADDSTRING, 0, (LPARAM)(lplf->lfFaceName));
return 1;
}
/*
void DoColors(HWND hwnd, int *r, int *g, int *b)
{
static COLORREF acrCustClr[16];
CHOOSECOLOR cc;
ZeroMemory(&cc, sizeof(CHOOSECOLOR));
cc.lStructSize = sizeof(CHOOSECOLOR);
cc.hwndOwner = hwnd;//NULL;//hSaverMainWindow;
cc.Flags = CC_RGBINIT | CC_FULLOPEN;
cc.rgbResult = RGB(*r,*g,*b);
cc.lpCustColors = (LPDWORD)acrCustClr;
if (ChooseColor(&cc))
{
*r = GetRValue(cc.rgbResult);
*g = GetGValue(cc.rgbResult);
*b = GetBValue(cc.rgbResult);
}
}*/
wchar_t* FormImageCacheSizeString(wchar_t* itemStr, UINT sizeID)
{
static wchar_t cacheBuf[128] = {0};
StringCchPrintfW(cacheBuf, 128, L"%s %s", itemStr, WASABI_API_LNGSTRINGW(sizeID));
return cacheBuf;
}
//----------------------------------------------------------------------
BOOL CPlugin::MyConfigTabProc(int nPage, HWND hwnd,UINT msg,WPARAM wParam,LPARAM lParam)
{
// This is the only function you need to worry about for programming
// tabs 2 through 8 on the config panel. (Tab 1 contains settings
// that are common to all plugins, and the code is located in pluginshell.cpp).
// By default, only tab 2 is enabled; to enable tabes 3+, see
// 'Enabling Additional Tabs (pages) on the Config Panel' in DOCUMENTATION.TXT.
// You should always return 0 for this function.
// Note that you don't generally have to use critical sections or semaphores
// here; Winamp controls the plugin's message queue, and only gives it message
// in between frames.
//
// Incoming parameters:
// 'nPage' indicates which tab (aka 'property page') is currently showing: 2 through 5.
// 'hwnd' is the window handle of the property page (which is a dialog of its own,
// embedded in the config dialog).
// 'msg' is the windows message being sent. The main ones are:
//
// 1) WM_INITDIALOG: This means the page is being initialized, because the
// user clicked on it. When you get this message, you should initialize
// all the controls on the page, and set them to reflect the settings
// that are stored in member variables.
//
// 2) WM_DESTROY: This is sent when a tab disappears, either because another
// tab is about to be displayed, or because the user clicked OK or Cancel.
// In any case, you should read the current settings of all the controls
// on the page, and store them in member variables. (If the user clicked
// CANCEL, these values will not get saved to disk, but for simplicity,
// we always poll the controls here.)
//
// 3) WM_HELP: This is sent when the user clicks the '?' icon (in the
// titlebar of the config panel) and then clicks on a control. When you
// get this message, you should display a MessageBox telling the user
// a little bit about that control/setting.
//
// 4) WM_COMMAND: Advanced. This notifies you when the user clicks on a
// control. Use this if you need to do certain things when the user
// changes a setting. (For example, one control might only be enabled
// when a certain checkbox is enabled; you would use EnableWindow() for
// this.)
//
// For complete details on adding your own controls to one of the pages, please see
// 'Adding Controls to the Config Panel' in DOCUMENTATION.TXT.
int t;
float val;
if (nPage == 2)
{
switch(msg)
{
case WM_INITDIALOG: // initialize controls here
{
char buf[2048];
int nPos, i;
HWND ctrl;
//-------------- pixel shaders combo box ---------------------
ctrl = GetDlgItem( hwnd, IDC_SHADERS );
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_PS_AUTO_RECOMMENDED), -1);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_PS_DISABLED), MD2_PS_NONE);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_PS_SHADER_MODEL_2), MD2_PS_2_0);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_PS_SHADER_MODEL_3), MD2_PS_3_0);
SelectItemByPos(ctrl, 0); //as a safe default
SelectItemByValue(ctrl, m_nMaxPSVersion_ConfigPanel);
//-------------- texture format combo box ---------------------
ctrl = GetDlgItem( hwnd, IDC_TEXFORMAT );
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_TX_8_BITS_PER_CHANNEL), 8);
//AddItem(ctrl, " 10 bits per channel", 10);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_TX_16_BITS_PER_CHANNEL), 16);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_TX_32_BITS_PER_CHANNEL), 32);
SelectItemByPos(ctrl, 0); //as a safe default
SelectItemByValue(ctrl, m_nTexBitsPerCh);
//-------------- mesh size combo box ---------------------
ctrl = GetDlgItem( hwnd, IDC_MESHSIZECOMBO );
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_8X6_FAST), 8);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_16X12_FAST), 16);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_24X18), 24);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_32X24), 32);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_40X30), 40);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_48X36_DEFAULT), 48);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_64X48_SLOW), 64);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_80X60_SLOW), 80);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_96X72_SLOW), 96);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_128X96_SLOW), 128);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_160X120_SLOW), 160);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_192X144_SLOW), 192);
SelectItemByPos(ctrl, 0); //as a safe default
SelectItemByValue(ctrl, m_nGridX);
//-------------- canvas stretch combo box ---------------------
ctrl = GetDlgItem( hwnd, IDC_STRETCH );
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_AUTO), 0);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_NONE_BEST_IMAGE_QUALITY), 100);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_1_25_X), 125);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_1_33_X), 133);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_1_5_X), 150);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_1_67_X), 167);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_2_X), 200);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_3_X), 300);
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_4_X), 400);
SelectItemByPos(ctrl, 0); //as a safe default
SelectItemByValue(ctrl, m_nCanvasStretch);
//-------------- texture size combo box ---------------------
for (i=0; i<5; i++)
{
int size = (int)pow(2., i+8);
sprintf(buf, " %4d x %4d ", size, size);
nPos = SendMessage( GetDlgItem( hwnd, IDC_TEXSIZECOMBO ), CB_ADDSTRING, 0, (LPARAM)buf);
SendMessage( GetDlgItem( hwnd, IDC_TEXSIZECOMBO ), CB_SETITEMDATA, nPos, size);
}
// throw the "Auto" option in there
nPos = SendMessageW( GetDlgItem( hwnd, IDC_TEXSIZECOMBO ), CB_ADDSTRING, 0, (LPARAM)WASABI_API_LNGSTRINGW(IDS_NEAREST_POWER_OF_2));
SendMessage( GetDlgItem( hwnd, IDC_TEXSIZECOMBO ), CB_SETITEMDATA, nPos, -2);
nPos = SendMessageW( GetDlgItem( hwnd, IDC_TEXSIZECOMBO ), CB_ADDSTRING, 0, (LPARAM)WASABI_API_LNGSTRINGW(IDS_EXACT_RECOMMENDED));
SendMessage( GetDlgItem( hwnd, IDC_TEXSIZECOMBO ), CB_SETITEMDATA, nPos, -1);
for (i=0; i<5+2; i++)
{
int size = SendMessage( GetDlgItem( hwnd, IDC_TEXSIZECOMBO ), CB_GETITEMDATA, i, 0);
if (size == m_nTexSizeX)
{
SendMessage( GetDlgItem( hwnd, IDC_TEXSIZECOMBO ), CB_SETCURSEL, i, 0);
}
}
//---------16-bit brightness slider--------------
SendMessage( GetDlgItem( hwnd, IDC_BRIGHT_SLIDER), TBM_SETRANGEMIN,
FALSE, (LPARAM)(0) );
SendMessage( GetDlgItem( hwnd, IDC_BRIGHT_SLIDER), TBM_SETRANGEMAX,
FALSE, (LPARAM)(4) );
SendMessage( GetDlgItem( hwnd, IDC_BRIGHT_SLIDER), TBM_SETPOS,
TRUE, (LPARAM)(m_n16BitGamma) );
for (i=0; i<5; i++)
SendMessage( GetDlgItem( hwnd, IDC_BRIGHT_SLIDER), TBM_SETTIC, 0, i);
// append debug output filename to the checkbox's text
GetWindowText( GetDlgItem(hwnd, IDC_CB_DEBUGOUTPUT), buf, 256);
lstrcat(buf, DEBUGFILE);
SetWindowText( GetDlgItem(hwnd, IDC_CB_DEBUGOUTPUT), buf);
// set checkboxes
CheckDlgButton(hwnd, IDC_CB_DEBUGOUTPUT, g_bDebugOutput);
//CheckDlgButton(hwnd, IDC_CB_PRESSF1, (!m_bShowPressF1ForHelp));
//CheckDlgButton(hwnd, IDC_CB_TOOLTIPS, m_bShowMenuToolTips);
//CheckDlgButton(hwnd, IDC_CB_ALWAYS3D, m_bAlways3D);
//CheckDlgButton(hwnd, IDC_CB_FIXSLOWTEXT, m_bFixSlowText);
//CheckDlgButton(hwnd, IDC_CB_TOP, m_bAlwaysOnTop);
//CheckDlgButton(hwnd, IDC_CB_CLS, !m_bClearScreenAtStartup);
//CheckDlgButton(hwnd, IDC_CB_NOWARN, m_bWarningsDisabled);
CheckDlgButton(hwnd, IDC_CB_NOWARN2, m_bWarningsDisabled2);
//CheckDlgButton(hwnd, IDC_CB_ANISO, m_bAnisotropicFiltering);
CheckDlgButton(hwnd, IDC_CB_SCROLLON, m_bPresetLockOnAtStartup);
CheckDlgButton(hwnd, IDC_CB_SCROLLON2, m_bPreventScollLockHandling);
//CheckDlgButton(hwnd, IDC_CB_PINKFIX, m_bFixPinkBug);
CheckDlgButton(hwnd, IDC_CB_NORATING, !m_bEnableRating);
CheckDlgButton(hwnd, IDC_CB_AUTOGAMMA, m_bAutoGamma);
RefreshTab2(hwnd);
}
break; // case WM_INITDIALOG
case WM_COMMAND:
{
int id = LOWORD(wParam);
//g_ignore_tab2_clicks = 1;
switch (id)
{
case IDC_CB_NORATING:
m_bEnableRating = !DlgItemIsChecked(hwnd, IDC_CB_NORATING);
RefreshTab2(hwnd);
break;
case IDC_CB_AUTOGAMMA:
m_bAutoGamma = DlgItemIsChecked(hwnd, IDC_CB_AUTOGAMMA);
RefreshTab2(hwnd);
break;
}
//g_ignore_tab2_clicks = 0;
} // end WM_COMMAND case
break;
case WM_DESTROY: // read controls here
{
ReadCBValue(hwnd, IDC_SHADERS , &m_nMaxPSVersion_ConfigPanel );
ReadCBValue(hwnd, IDC_TEXFORMAT , &m_nTexBitsPerCh );
ReadCBValue(hwnd, IDC_TEXSIZECOMBO , &m_nTexSizeX );
ReadCBValue(hwnd, IDC_MESHSIZECOMBO, &m_nGridX );
ReadCBValue(hwnd, IDC_STRETCH , &m_nCanvasStretch);
// 16-bit-brightness slider - this one doesn't use item values... just item pos.
t = SendMessage( GetDlgItem( hwnd, IDC_BRIGHT_SLIDER ), TBM_GETPOS, 0, 0);
if (t != CB_ERR) m_n16BitGamma = t;
// checkboxes
g_bDebugOutput = DlgItemIsChecked(hwnd, IDC_CB_DEBUGOUTPUT);
//m_bShowPressF1ForHelp = (!DlgItemIsChecked(hwnd, IDC_CB_PRESSF1));
//m_bShowMenuToolTips = DlgItemIsChecked(hwnd, IDC_CB_TOOLTIPS);
//m_bClearScreenAtStartup = !DlgItemIsChecked(hwnd, IDC_CB_CLS);
//m_bAlways3D = DlgItemIsChecked(hwnd, IDC_CB_ALWAYS3D);
//m_bFixSlowText = DlgItemIsChecked(hwnd, IDC_CB_FIXSLOWTEXT);
//m_bAlwaysOnTop = DlgItemIsChecked(hwnd, IDC_CB_TOP);
//m_bWarningsDisabled = DlgItemIsChecked(hwnd, IDC_CB_NOWARN);
m_bWarningsDisabled2 = DlgItemIsChecked(hwnd, IDC_CB_NOWARN2);
//m_bAnisotropicFiltering = DlgItemIsChecked(hwnd, IDC_CB_ANISO);
m_bPresetLockOnAtStartup = DlgItemIsChecked(hwnd, IDC_CB_SCROLLON);
m_bPreventScollLockHandling = DlgItemIsChecked(hwnd, IDC_CB_SCROLLON2);
//m_bFixPinkBug = DlgItemIsChecked(hwnd, IDC_CB_PINKFIX);
m_bEnableRating = !DlgItemIsChecked(hwnd, IDC_CB_NORATING);
m_bAutoGamma = DlgItemIsChecked(hwnd, IDC_CB_AUTOGAMMA);
}
break; // case WM_DESTROY
case WM_HELP: // give help box for controls here
if (lParam)
{
HELPINFO *ph = (HELPINFO*)lParam;
wchar_t title[1024], buf[2048], ctrl_name[1024];
GetWindowTextW(GetDlgItem(hwnd, ph->iCtrlId), ctrl_name, sizeof(ctrl_name)/sizeof(*ctrl_name));
RemoveSingleAmpersands(ctrl_name);
buf[0] = 0;
StringCbCopyW(title, sizeof(title), ctrl_name);
switch(ph->iCtrlId)
{
case IDC_SHADERS:
case IDC_SHADERS_CAPTION:
WASABI_API_LNGSTRINGW_BUF(IDS_PIXEL_SHADERS, title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_PIXEL_SHADERS_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_TEXFORMAT:
case IDC_TEXFORMAT_CAPTION:
WASABI_API_LNGSTRINGW_BUF(IDS_TEXFORMAT, title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_TEXFORMAT_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_TEXSIZECOMBO:
case IDC_TEXSIZECOMBO_CAPTION:
WASABI_API_LNGSTRINGW_BUF(IDS_CANVAS_SIZE, title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_CANVAS_SIZE_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_STRETCH:
case IDC_STRETCH_CAPTION:
WASABI_API_LNGSTRINGW_BUF(IDS_CANVAS_STRETCH, title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_CANVAS_STRETCH_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_MESHSIZECOMBO:
case IDC_MESHSIZECOMBO_CAPTION:
WASABI_API_LNGSTRINGW_BUF(IDS_MESH_SIZE, title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_MESH_SIZE_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_CB_ALWAYS3D:
WASABI_API_LNGSTRINGW_BUF(IDS_CB_ALWAYS3D, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_CB_NORATING:
WASABI_API_LNGSTRINGW_BUF(IDS_DISABLE_PRESET_RATING, title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_DISABLE_PRESET_RATING_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_CB_NOWARN2:
WASABI_API_LNGSTRINGW_BUF(IDS_CB_NOWARN2, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_CB_SCROLLON:
WASABI_API_LNGSTRINGW_BUF(IDS_START_WITH_PRESET_LOCK_ON, title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_START_WITH_PRESET_LOCK_ON_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_BRIGHT_SLIDER:
case IDC_BRIGHT_SLIDER_BOX:
case IDC_T1:
case IDC_T2:
case IDC_T3:
case IDC_T4:
case IDC_T5:
case IDC_CB_AUTOGAMMA:
GetWindowTextW(GetDlgItem(hwnd, IDC_BRIGHT_SLIDER_BOX), title, sizeof(title)/sizeof(*title));
RemoveSingleAmpersands(title);
WASABI_API_LNGSTRINGW_BUF((ph->iCtrlId==IDC_CB_AUTOGAMMA?IDS_CB_AUTOGAMMA:IDS_BRIGHT_SLIDER), buf, sizeof(buf)/sizeof(*buf));
break;
}
if (buf[0])
MessageBoxW(hwnd, buf, title, MB_OK|MB_SETFOREGROUND|MB_TOPMOST|MB_TASKMODAL);
}
break; // case WM_HELP
}
}
else if (nPage==3)
{
switch(msg)
{
case WM_INITDIALOG:
{
char buf[2048];
HWND ctrl;
//-------------- image cache max. bytes combo box ---------------------
ctrl = GetDlgItem( hwnd, IDC_MAX_BYTES );
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_AUTO), -1);
AddItem(ctrl, FormImageCacheSizeString(L" 0", IDS_MB), 0);
AddItem(ctrl, FormImageCacheSizeString(L" 1", IDS_MB), 1000000);
AddItem(ctrl, FormImageCacheSizeString(L" 2", IDS_MB), 2000000);
AddItem(ctrl, FormImageCacheSizeString(L" 3", IDS_MB), 3000000);
AddItem(ctrl, FormImageCacheSizeString(L" 4", IDS_MB), 4000000);
AddItem(ctrl, FormImageCacheSizeString(L" 6", IDS_MB), 6000000);
AddItem(ctrl, FormImageCacheSizeString(L" 9", IDS_MB), 8000000);
AddItem(ctrl, FormImageCacheSizeString(L" 10", IDS_MB), 10000000);
AddItem(ctrl, FormImageCacheSizeString(L" 12", IDS_MB), 12000000);
AddItem(ctrl, FormImageCacheSizeString(L" 14", IDS_MB), 14000000);
AddItem(ctrl, FormImageCacheSizeString(L" 16", IDS_MB), 16000000);
AddItem(ctrl, FormImageCacheSizeString(L" 20", IDS_MB), 20000000);
AddItem(ctrl, FormImageCacheSizeString(L" 24", IDS_MB), 24000000);
AddItem(ctrl, FormImageCacheSizeString(L" 28", IDS_MB), 28000000);
AddItem(ctrl, FormImageCacheSizeString(L" 32", IDS_MB), 32000000);
AddItem(ctrl, FormImageCacheSizeString(L" 40", IDS_MB), 40000000);
AddItem(ctrl, FormImageCacheSizeString(L" 48", IDS_MB), 48000000);
AddItem(ctrl, FormImageCacheSizeString(L" 56", IDS_MB), 56000000);
AddItem(ctrl, FormImageCacheSizeString(L" 64", IDS_MB), 64000000);
AddItem(ctrl, FormImageCacheSizeString(L" 80", IDS_MB), 80000000);
AddItem(ctrl, FormImageCacheSizeString(L" 96", IDS_MB), 96000000);
AddItem(ctrl, FormImageCacheSizeString(L" 128", IDS_MB), 128000000);
AddItem(ctrl, FormImageCacheSizeString(L" 160", IDS_MB), 160000000);
AddItem(ctrl, FormImageCacheSizeString(L" 192", IDS_MB), 192000000);
AddItem(ctrl, FormImageCacheSizeString(L" 224", IDS_MB), 224000000);
AddItem(ctrl, FormImageCacheSizeString(L" 256", IDS_MB), 256000000);
AddItem(ctrl, FormImageCacheSizeString(L" 384", IDS_MB), 384000000);
AddItem(ctrl, FormImageCacheSizeString(L" 512", IDS_MB), 512000000);
AddItem(ctrl, FormImageCacheSizeString(L" 768", IDS_MB), 768000000);
AddItem(ctrl, FormImageCacheSizeString(L" 1", IDS_GB), 1000000000);
AddItem(ctrl, FormImageCacheSizeString(L"1.25", IDS_GB), 1250000000);
AddItem(ctrl, FormImageCacheSizeString(L" 1.5", IDS_GB), 1500000000);
AddItem(ctrl, FormImageCacheSizeString(L"1.75", IDS_GB), 1750000000);
AddItem(ctrl, FormImageCacheSizeString(L" 2", IDS_GB), 2000000000);
SelectItemByPos (ctrl, 0); //as a safe default
SelectItemByValue(ctrl, m_nMaxBytes);
//-------------- image cache max. # images combo box ---------------------
ctrl = GetDlgItem( hwnd, IDC_MAX_IMAGES );
AddItem(ctrl, WASABI_API_LNGSTRINGW(IDS_AUTO), -1);
AddItem(ctrl, L" 0 ", 0);
AddItem(ctrl, L" 1 ", 1);
AddItem(ctrl, L" 2 ", 2);
AddItem(ctrl, L" 3 ", 3);
AddItem(ctrl, L" 4 ", 4);
AddItem(ctrl, L" 6 ", 6);
AddItem(ctrl, L" 8 ", 8);
AddItem(ctrl, L" 10 ", 10);
AddItem(ctrl, L" 12 ", 12);
AddItem(ctrl, L" 14 ", 14);
AddItem(ctrl, L" 16 ", 16);
AddItem(ctrl, L" 20 ", 20);
AddItem(ctrl, L" 24 ", 24);
AddItem(ctrl, L" 28 ", 28);
AddItem(ctrl, L" 32 ", 32);
AddItem(ctrl, L" 40 ", 40);
AddItem(ctrl, L" 48 ", 48);
AddItem(ctrl, L" 56 ", 56);
AddItem(ctrl, L" 64 ", 64);
AddItem(ctrl, L" 80 ", 80);
AddItem(ctrl, L" 96 ", 96);
AddItem(ctrl, L" 128 ",128);
AddItem(ctrl, L" 160 ",160);
AddItem(ctrl, L" 192 ",192);
AddItem(ctrl, L" 224 ",224);
AddItem(ctrl, L" 256 ",256);
AddItem(ctrl, L" 384 ",384);
AddItem(ctrl, L" 512 ",512);
AddItem(ctrl, L" 768 ",768);
AddItem(ctrl, L" 1024 ",1024);
AddItem(ctrl, L" 1536 ",1536);
AddItem(ctrl, L" 2048 ",2048);
SelectItemByPos (ctrl, 0); //as a safe default
SelectItemByValue(ctrl, m_nMaxImages);
//sprintf(buf, " %3.2f", m_fStereoSep);
//SetWindowText( GetDlgItem( hwnd, IDC_3DSEP ), buf );
sprintf(buf, " %2.1f", m_fSongTitleAnimDuration);
SetWindowText(GetDlgItem( hwnd, IDC_SONGTITLEANIM_DURATION), buf);
sprintf(buf, " %2.1f", m_fTimeBetweenRandomSongTitles);
SetWindowText(GetDlgItem(hwnd, IDC_RAND_TITLE), buf);
sprintf(buf, " %2.1f", m_fTimeBetweenRandomCustomMsgs);
SetWindowText(GetDlgItem(hwnd, IDC_RAND_MSG), buf);
CheckDlgButton(hwnd, IDC_CB_TITLE_ANIMS, m_bSongTitleAnims);
}
break;
case WM_COMMAND:
{
int id = LOWORD(wParam);
//g_ignore_tab2_clicks = 1;
switch (id)
{
case ID_SPRITE:
{
wchar_t szPath[512], szFile[512];
lstrcpyW(szPath, GetConfigIniFile());
wchar_t *p = wcsrchr(szPath, L'\\');
if (p != NULL)
{
*(p+1) = 0;
lstrcpyW(szFile, szPath);
lstrcatW(szFile, IMG_INIFILE);
intptr_t ret = (intptr_t)ShellExecuteW(NULL, L"open", szFile, NULL, szPath, SW_SHOWNORMAL);
if (ret <= 32)
{
wchar_t* str = WASABI_API_LNGSTRINGW(IDS_ERROR_IN_SHELLEXECUTE);
MessageBoxW(hwnd, str, str, MB_OK|MB_SETFOREGROUND|MB_TOPMOST|MB_TASKMODAL);
}
}
}
break;
case ID_MSG:
{
wchar_t szPath[512], szFile[512];
lstrcpyW(szPath, GetConfigIniFile());
wchar_t *p = wcsrchr(szPath, L'\\');
if (p != NULL)
{
*(p+1) = 0;
lstrcpyW(szFile, szPath);
lstrcatW(szFile, MSG_INIFILE);
intptr_t ret = (intptr_t)ShellExecuteW(NULL, L"open", szFile, NULL, szPath, SW_SHOWNORMAL);
if (ret <= 32)
{
wchar_t* str = WASABI_API_LNGSTRINGW(IDS_ERROR_IN_SHELLEXECUTE);
MessageBoxW(hwnd, str, str, MB_OK|MB_SETFOREGROUND|MB_TOPMOST|MB_TASKMODAL);
}
}
}
break;
}
}
/*if (LOWORD(wParam)==IDLEFT)
DoColors(hwnd, &m_cLeftEye3DColor[0], &m_cLeftEye3DColor[1], &m_cLeftEye3DColor[2]);
if (LOWORD(wParam)==IDRIGHT)
DoColors(hwnd, &m_cRightEye3DColor[0], &m_cRightEye3DColor[1], &m_cRightEye3DColor[2]);
*/
break;
case WM_DESTROY:
{
ReadCBValue(hwnd, IDC_MAX_BYTES , &m_nMaxBytes );
ReadCBValue(hwnd, IDC_MAX_IMAGES , &m_nMaxImages );
char buf[2048];
GetWindowText( GetDlgItem( hwnd, IDC_SONGTITLEANIM_DURATION ), buf, sizeof(buf));
if (_sscanf_l(buf, "%f", g_use_C_locale, &val) == 1)
m_fSongTitleAnimDuration = val;
GetWindowText( GetDlgItem( hwnd, IDC_RAND_TITLE ), buf, sizeof(buf));
if (_sscanf_l(buf, "%f", g_use_C_locale, &val) == 1)
m_fTimeBetweenRandomSongTitles = val;
GetWindowText( GetDlgItem( hwnd, IDC_RAND_MSG ), buf, sizeof(buf));
if (_sscanf_l(buf, "%f", g_use_C_locale, &val) == 1)
m_fTimeBetweenRandomCustomMsgs = val;
m_bSongTitleAnims = DlgItemIsChecked(hwnd, IDC_CB_TITLE_ANIMS);
}
break;
case WM_HELP: // give help box for controls here
if (lParam)
{
HELPINFO *ph = (HELPINFO*)lParam;
wchar_t title[1024], buf[2048], ctrl_name[1024];
GetWindowTextW(GetDlgItem(hwnd, ph->iCtrlId), ctrl_name, sizeof(ctrl_name)/sizeof(*ctrl_name));
RemoveSingleAmpersands(ctrl_name);
buf[0] = 0;
StringCbCopyW(title, sizeof(title), ctrl_name);
switch(ph->iCtrlId)
{
case IDC_MAX_IMAGES:
case IDC_MAX_IMAGES_CAPTION:
case IDC_MAX_BYTES:
case IDC_MAX_BYTES_CAPTION:
WASABI_API_LNGSTRINGW_BUF(IDS_MAX_IMAGES_BYTES, title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_MAX_IMAGES_BYTES_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case ID_SPRITE:
WASABI_API_LNGSTRINGW_BUF(IDS_SPRITE, buf, sizeof(buf)/sizeof(*buf));
break;
case ID_MSG:
WASABI_API_LNGSTRINGW_BUF(IDS_MSG, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_SONGTITLEANIM_DURATION:
case IDC_SONGTITLEANIM_DURATION_LABEL:
GetWindowTextW(GetDlgItem(hwnd, IDC_SONGTITLEANIM_DURATION_LABEL), title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_SONGTITLEANIM_DURATION_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_RAND_TITLE:
case IDC_RAND_TITLE_LABEL:
WASABI_API_LNGSTRINGW_BUF(IDS_RAND_TITLE, title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_RAND_TITLE_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_RAND_MSG:
case IDC_RAND_MSG_LABEL:
WASABI_API_LNGSTRINGW_BUF(IDS_RAND_MSG, title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_RAND_MSG_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_CB_TITLE_ANIMS:
WASABI_API_LNGSTRINGW_BUF(IDS_TITLE_ANIMS_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
}
if (buf[0])
MessageBoxW(hwnd, buf, title, MB_OK|MB_SETFOREGROUND|MB_TOPMOST|MB_TASKMODAL);
}
break; // case WM_HELP
}
}
else if (nPage==4)
{
switch(msg)
{
case WM_INITDIALOG:
{
char buf[2048];
// soft cuts
sprintf(buf, " %2.1f", m_fTimeBetweenPresets);
SetWindowText( GetDlgItem( hwnd, IDC_BETWEEN_TIME ), buf );
sprintf(buf, " %2.1f", m_fTimeBetweenPresetsRand);
SetWindowText( GetDlgItem( hwnd, IDC_BETWEEN_TIME_RANDOM ), buf );
sprintf(buf, " %2.1f", m_fBlendTimeUser);
SetWindowText( GetDlgItem( hwnd, IDC_BLEND_USER ), buf );
sprintf(buf, " %2.1f", m_fBlendTimeAuto);
SetWindowText( GetDlgItem( hwnd, IDC_BLEND_AUTO ), buf );
// hard cuts
sprintf(buf, " %2.1f", m_fHardCutHalflife);
SetWindowText( GetDlgItem( hwnd, IDC_HARDCUT_BETWEEN_TIME ), buf );
int n = (int)((m_fHardCutLoudnessThresh - 1.25f) * 10.0f);
if (n<0) n = 0;
if (n>20) n = 20;
SendMessage( GetDlgItem( hwnd, IDC_HARDCUT_LOUDNESS), TBM_SETRANGEMIN, FALSE, (LPARAM)(0) );
SendMessage( GetDlgItem( hwnd, IDC_HARDCUT_LOUDNESS), TBM_SETRANGEMAX, FALSE, (LPARAM)(20) );
SendMessage( GetDlgItem( hwnd, IDC_HARDCUT_LOUDNESS), TBM_SETPOS, TRUE, (LPARAM)(n) );
CheckDlgButton(hwnd, IDC_CB_HARDCUTS, m_bHardCutsDisabled);
}
break;
case WM_DESTROY:
{
char buf[2048];
// soft cuts
GetWindowText( GetDlgItem( hwnd, IDC_BETWEEN_TIME ), buf, sizeof(buf));
if (_sscanf_l(buf, "%f", g_use_C_locale, &val) == 1)
m_fTimeBetweenPresets = val;
GetWindowText( GetDlgItem( hwnd, IDC_BETWEEN_TIME_RANDOM ), buf, sizeof(buf));
if (_sscanf_l(buf, "%f", g_use_C_locale, &val) == 1)
m_fTimeBetweenPresetsRand = val;
GetWindowText( GetDlgItem( hwnd, IDC_BLEND_AUTO ), buf, sizeof(buf));
if (_sscanf_l(buf, "%f", g_use_C_locale, &val) == 1)
m_fBlendTimeAuto = val;
GetWindowText( GetDlgItem( hwnd, IDC_BLEND_USER ), buf, sizeof(buf));
if (_sscanf_l(buf, "%f", g_use_C_locale, &val) == 1)
m_fBlendTimeUser = val;
// hard cuts
GetWindowText( GetDlgItem( hwnd, IDC_HARDCUT_BETWEEN_TIME ), buf, sizeof(buf));
if (_sscanf_l(buf, "%f", g_use_C_locale, &val) == 1)
m_fHardCutHalflife = val;
t = SendMessage( GetDlgItem( hwnd, IDC_HARDCUT_LOUDNESS ), TBM_GETPOS, 0, 0);
if (t != CB_ERR) m_fHardCutLoudnessThresh = 1.25f + t/10.0f;
m_bHardCutsDisabled = DlgItemIsChecked(hwnd, IDC_CB_HARDCUTS);
}
break;
case WM_HELP:
if (lParam)
{
HELPINFO *ph = (HELPINFO*)lParam;
wchar_t title[1024], buf[2048], ctrl_name[1024];
GetWindowTextW(GetDlgItem(hwnd, ph->iCtrlId), ctrl_name, sizeof(ctrl_name)/sizeof(*ctrl_name));
RemoveSingleAmpersands(ctrl_name);
buf[0] = 0;
StringCbCopyW(title, sizeof(title), ctrl_name);
switch(ph->iCtrlId)
{
case IDC_BETWEEN_TIME:
case IDC_BETWEEN_TIME_LABEL:
GetWindowTextW(GetDlgItem(hwnd, IDC_BETWEEN_TIME_LABEL), title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_BETWEEN_TIME_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_BETWEEN_TIME_RANDOM:
case IDC_BETWEEN_TIME_RANDOM_LABEL:
GetWindowTextW(GetDlgItem(hwnd, IDC_BETWEEN_TIME_RANDOM_LABEL), title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_BETWEEN_TIME_RANDOM_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_BLEND_AUTO:
case IDC_BLEND_AUTO_LABEL:
GetWindowTextW(GetDlgItem(hwnd, IDC_BLEND_AUTO_LABEL), title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_BLEND_AUTO_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_BLEND_USER:
case IDC_BLEND_USER_LABEL:
GetWindowTextW(GetDlgItem(hwnd, IDC_BLEND_USER_LABEL), title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_BLEND_USER_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_HARDCUT_BETWEEN_TIME:
case IDC_HARDCUT_BETWEEN_TIME_LABEL:
GetWindowTextW(GetDlgItem(hwnd, IDC_HARDCUT_BETWEEN_TIME_LABEL), title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_HARDCUT_BETWEEN_TIME_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_HARDCUT_LOUDNESS:
case IDC_HARDCUT_LOUDNESS_LABEL:
case IDC_HARDCUT_LOUDNESS_MIN:
case IDC_HARDCUT_LOUDNESS_MAX:
GetWindowTextW(GetDlgItem(hwnd, IDC_HARDCUT_LOUDNESS_LABEL), title, sizeof(title)/sizeof(*title));
WASABI_API_LNGSTRINGW_BUF(IDS_HARDCUT_LOUDNESS_TEXT, buf, sizeof(buf)/sizeof(*buf));
break;
case IDC_CB_HARDCUTS:
WASABI_API_LNGSTRINGW_BUF(IDS_CB_HARDCUTS, buf, sizeof(buf)/sizeof(*buf));
break;
}
if (buf[0])
MessageBoxW(hwnd, buf, title, MB_OK|MB_SETFOREGROUND|MB_TOPMOST|MB_TASKMODAL);
}
break;
}
}
return false;
}
//----------------------------------------------------------------------
void CPlugin::Randomize()
{
srand((int)(GetTime()*100));
//m_fAnimTime = (warand() % 51234L)*0.01f;
m_fRandStart[0] = (warand() % 64841L)*0.01f;
m_fRandStart[1] = (warand() % 53751L)*0.01f;
m_fRandStart[2] = (warand() % 42661L)*0.01f;
m_fRandStart[3] = (warand() % 31571L)*0.01f;
//CState temp;
//temp.Randomize(warand() % NUM_MODES);
//m_pState->StartBlend(&temp, m_fAnimTime, m_fBlendTimeUser);
}
//----------------------------------------------------------------------
void CPlugin::SetMenusForPresetVersion(int WarpPSVersion, int CompPSVersion)
{
int MaxPSVersion = max(WarpPSVersion, CompPSVersion);
m_menuPreset.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_EDIT_WARP_SHADER), WarpPSVersion > 0);
m_menuPreset.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_EDIT_COMPOSITE_SHADER), CompPSVersion > 0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_SUSTAIN_LEVEL), WarpPSVersion==0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_TEXTURE_WRAP), WarpPSVersion==0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_GAMMA_ADJUSTMENT), CompPSVersion==0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_HUE_SHADER), CompPSVersion==0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_VIDEO_ECHO_ALPHA), CompPSVersion==0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_VIDEO_ECHO_ZOOM), CompPSVersion==0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_VIDEO_ECHO_ORIENTATION), CompPSVersion==0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_FILTER_INVERT), CompPSVersion==0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_FILTER_BRIGHTEN), CompPSVersion==0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_FILTER_DARKEN), CompPSVersion==0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_FILTER_SOLARIZE), CompPSVersion==0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_BLUR1_EDGE_DARKEN_AMOUNT), MaxPSVersion > 0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_BLUR1_MIN_COLOR_VALUE), MaxPSVersion > 0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_BLUR1_MAX_COLOR_VALUE), MaxPSVersion > 0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_BLUR2_MIN_COLOR_VALUE), MaxPSVersion > 0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_BLUR2_MAX_COLOR_VALUE), MaxPSVersion > 0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_BLUR3_MIN_COLOR_VALUE), MaxPSVersion > 0);
m_menuPost.EnableItem(WASABI_API_LNGSTRINGW(IDS_MENU_BLUR3_MAX_COLOR_VALUE), MaxPSVersion > 0);
}
void CPlugin::BuildMenus()
{
wchar_t buf[1024];
m_pCurMenu = &m_menuPreset;//&m_menuMain;
m_menuPreset .Init(WASABI_API_LNGSTRINGW(IDS_EDIT_CURRENT_PRESET));
m_menuMotion .Init(WASABI_API_LNGSTRINGW(IDS_MOTION));
m_menuCustomShape.Init(WASABI_API_LNGSTRINGW(IDS_DRAWING_CUSTOM_SHAPES));
m_menuCustomWave .Init(WASABI_API_LNGSTRINGW(IDS_DRAWING_CUSTOM_WAVES));
m_menuWave .Init(WASABI_API_LNGSTRINGW(IDS_DRAWING_SIMPLE_WAVEFORM));
m_menuAugment .Init(WASABI_API_LNGSTRINGW(IDS_DRAWING_BORDERS_MOTION_VECTORS));
m_menuPost .Init(WASABI_API_LNGSTRINGW(IDS_POST_PROCESSING_MISC));
int i = 0;
for (i=0; i<MAX_CUSTOM_WAVES; i++)
{
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_CUSTOM_WAVE_X), i+1);
m_menuWavecode[i].Init(buf);
}
for (i=0; i<MAX_CUSTOM_SHAPES; i++)
{
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_CUSTOM_SHAPE_X), i+1);
m_menuShapecode[i].Init(buf);
}
//-------------------------------------------
// MAIN MENU / menu hierarchy
m_menuPreset.AddChildMenu(&m_menuMotion);
m_menuPreset.AddChildMenu(&m_menuCustomShape);
m_menuPreset.AddChildMenu(&m_menuCustomWave);
m_menuPreset.AddChildMenu(&m_menuWave);
m_menuPreset.AddChildMenu(&m_menuAugment);
m_menuPreset.AddChildMenu(&m_menuPost);
for (i=0; i<MAX_CUSTOM_SHAPES; i++)
m_menuCustomShape.AddChildMenu(&m_menuShapecode[i]);
for (i=0; i<MAX_CUSTOM_WAVES; i++)
m_menuCustomWave.AddChildMenu(&m_menuWavecode[i]);
// NOTE: all of the eval menuitems use a CALLBACK function to register the user's changes (see last param)
m_menuPreset.AddItem(WASABI_API_LNGSTRINGW(IDS_MENU_EDIT_PRESET_INIT_CODE),
&m_pState->m_szPerFrameInit, MENUITEMTYPE_STRING,
WASABI_API_LNGSTRINGW_BUF(IDS_MENU_EDIT_PRESET_INIT_CODE_TT, buf, 1024),
256, 0, &OnUserEditedPresetInit, sizeof(m_pState->m_szPerFrameInit), 0);
m_menuPreset.AddItem(WASABI_API_LNGSTRINGW(IDS_MENU_EDIT_PER_FRAME_EQUATIONS),
&m_pState->m_szPerFrameExpr, MENUITEMTYPE_STRING,
WASABI_API_LNGSTRINGW_BUF(IDS_MENU_EDIT_PER_FRAME_EQUATIONS_TT, buf, 1024),
256, 0, &OnUserEditedPerFrame, sizeof(m_pState->m_szPerFrameExpr), 0);
m_menuPreset.AddItem(WASABI_API_LNGSTRINGW(IDS_MENU_EDIT_PER_VERTEX_EQUATIONS),
&m_pState->m_szPerPixelExpr, MENUITEMTYPE_STRING,
WASABI_API_LNGSTRINGW_BUF(IDS_MENU_EDIT_PER_VERTEX_EQUATIONS_TT, buf, 1024),
256, 0, &OnUserEditedPerPixel, sizeof(m_pState->m_szPerPixelExpr), 0);
m_menuPreset.AddItem(WASABI_API_LNGSTRINGW(IDS_MENU_EDIT_WARP_SHADER),
&m_pState->m_szWarpShadersText, MENUITEMTYPE_STRING,
WASABI_API_LNGSTRINGW_BUF(IDS_MENU_EDIT_WARP_SHADER_TT, buf, 1024),
256, 0, &OnUserEditedWarpShaders, sizeof(m_pState->m_szWarpShadersText), 0);
m_menuPreset.AddItem(WASABI_API_LNGSTRINGW(IDS_MENU_EDIT_COMPOSITE_SHADER),
&m_pState->m_szCompShadersText, MENUITEMTYPE_STRING,
WASABI_API_LNGSTRINGW_BUF(IDS_MENU_EDIT_COMPOSITE_SHADER_TT, buf, 1024),
256, 0, &OnUserEditedCompShaders, sizeof(m_pState->m_szCompShadersText), 0);
m_menuPreset.AddItem(WASABI_API_LNGSTRINGW(IDS_MENU_EDIT_UPGRADE_PRESET_PS_VERSION),
(void*)UI_UPGRADE_PIXEL_SHADER, MENUITEMTYPE_UIMODE,
WASABI_API_LNGSTRINGW_BUF(IDS_MENU_EDIT_UPGRADE_PRESET_PS_VERSION_TT, buf, 1024),
0, 0, NULL, UI_UPGRADE_PIXEL_SHADER, 0);
m_menuPreset.AddItem(WASABI_API_LNGSTRINGW(IDS_MENU_EDIT_DO_A_PRESET_MASH_UP),
(void*)UI_MASHUP, MENUITEMTYPE_UIMODE,
WASABI_API_LNGSTRINGW_BUF(IDS_MENU_EDIT_DO_A_PRESET_MASH_UP_TT, buf, 1024),
0, 0, NULL, UI_MASHUP, 0);
//-------------------------------------------
// menu items
#define MEN_T(id) WASABI_API_LNGSTRINGW(id)
#define MEN_TT(id) WASABI_API_LNGSTRINGW_BUF(id, buf, 1024)
m_menuWave.AddItem(MEN_T(IDS_MENU_WAVE_TYPE), &m_pState->m_nWaveMode, MENUITEMTYPE_INT, MEN_TT(IDS_MENU_WAVE_TYPE_TT), 0, NUM_WAVES-1);
m_menuWave.AddItem(MEN_T(IDS_MENU_SIZE), &m_pState->m_fWaveScale, MENUITEMTYPE_LOGBLENDABLE, MEN_TT(IDS_MENU_SIZE_TT));
m_menuWave.AddItem(MEN_T(IDS_MENU_SMOOTH), &m_pState->m_fWaveSmoothing,MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_SMOOTH_TT), 0.0f, 0.9f);
m_menuWave.AddItem(MEN_T(IDS_MENU_MYSTERY_PARAMETER), &m_pState->m_fWaveParam, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_MYSTERY_PARAMETER_TT), -1.0f, 1.0f);
m_menuWave.AddItem(MEN_T(IDS_MENU_POSITION_X), &m_pState->m_fWaveX, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_POSITION_X_TT), 0, 1);
m_menuWave.AddItem(MEN_T(IDS_MENU_POSITION_Y), &m_pState->m_fWaveY, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_POSITION_Y_TT), 0, 1);
m_menuWave.AddItem(MEN_T(IDS_MENU_COLOR_RED), &m_pState->m_fWaveR, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_COLOR_RED_TT), 0, 1);
m_menuWave.AddItem(MEN_T(IDS_MENU_COLOR_GREEN), &m_pState->m_fWaveG, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_COLOR_GREEN_TT), 0, 1);
m_menuWave.AddItem(MEN_T(IDS_MENU_COLOR_BLUE), &m_pState->m_fWaveB, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_COLOR_BLUE_TT), 0, 1);
m_menuWave.AddItem(MEN_T(IDS_MENU_OPACITY), &m_pState->m_fWaveAlpha, MENUITEMTYPE_LOGBLENDABLE, MEN_TT(IDS_MENU_OPACITY_TT), 0.001f, 100.0f);
m_menuWave.AddItem(MEN_T(IDS_MENU_USE_DOTS), &m_pState->m_bWaveDots, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_USE_DOTS_TT));
m_menuWave.AddItem(MEN_T(IDS_MENU_DRAW_THICK), &m_pState->m_bWaveThick, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_DRAW_THICK_TT));
m_menuWave.AddItem(MEN_T(IDS_MENU_MODULATE_OPACITY_BY_VOLUME), &m_pState->m_bModWaveAlphaByVolume, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_MODULATE_OPACITY_BY_VOLUME_TT));
m_menuWave.AddItem(MEN_T(IDS_MENU_MODULATION_TRANSPARENT_VOLUME), &m_pState->m_fModWaveAlphaStart, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_MODULATION_TRANSPARENT_VOLUME_TT), 0.0f, 2.0f);
m_menuWave.AddItem(MEN_T(IDS_MENU_MODULATION_OPAQUE_VOLUME), &m_pState->m_fModWaveAlphaEnd, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_MODULATION_OPAQUE_VOLUME_TT), 0.0f, 2.0f);
m_menuWave.AddItem(MEN_T(IDS_MENU_ADDITIVE_DRAWING), &m_pState->m_bAdditiveWaves, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_ADDITIVE_DRAWING_TT));
m_menuWave.AddItem(MEN_T(IDS_MENU_COLOR_BRIGHTENING), &m_pState->m_bMaximizeWaveColor, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_COLOR_BRIGHTENING_TT));
m_menuAugment.AddItem(MEN_T(IDS_MENU_OUTER_BORDER_THICKNESS), &m_pState->m_fOuterBorderSize, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_OUTER_BORDER_THICKNESS_TT), 0, 0.5f);
m_menuAugment.AddItem(MEN_T(IDS_MENU_COLOR_RED_OUTER), &m_pState->m_fOuterBorderR, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_COLOR_RED_OUTER_TT), 0, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_COLOR_GREEN_OUTER), &m_pState->m_fOuterBorderG, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_COLOR_GREEN_OUTER_TT), 0, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_COLOR_BLUE_OUTER), &m_pState->m_fOuterBorderB, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_COLOR_BLUE_OUTER_TT), 0, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_OPACITY_OUTER), &m_pState->m_fOuterBorderA, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_OPACITY_OUTER_TT), 0, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_INNER_BORDER_THICKNESS), &m_pState->m_fInnerBorderSize, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_INNER_BORDER_THICKNESS_TT), 0, 0.5f);
m_menuAugment.AddItem(MEN_T(IDS_MENU_COLOR_RED_OUTER), &m_pState->m_fInnerBorderR, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_COLOR_RED_INNER_TT), 0, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_COLOR_GREEN_OUTER), &m_pState->m_fInnerBorderG, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_COLOR_GREEN_INNER_TT), 0, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_COLOR_BLUE_OUTER), &m_pState->m_fInnerBorderB, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_COLOR_BLUE_INNER_TT), 0, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_OPACITY_OUTER), &m_pState->m_fInnerBorderA, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_OPACITY_INNER_TT), 0, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_MOTION_VECTOR_OPACITY), &m_pState->m_fMvA, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_MOTION_VECTOR_OPACITY_TT), 0, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_NUM_MOT_VECTORS_X), &m_pState->m_fMvX, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_NUM_MOT_VECTORS_X_TT), 0, 64);
m_menuAugment.AddItem(MEN_T(IDS_MENU_NUM_MOT_VECTORS_Y), &m_pState->m_fMvY, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_NUM_MOT_VECTORS_Y_TT), 0, 48);
m_menuAugment.AddItem(MEN_T(IDS_MENU_OFFSET_X), &m_pState->m_fMvDX, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_OFFSET_X_TT), -1, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_OFFSET_Y), &m_pState->m_fMvDY, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_OFFSET_Y_TT), -1, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_TRAIL_LENGTH), &m_pState->m_fMvL, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_TRAIL_LENGTH_TT), 0, 5);
m_menuAugment.AddItem(MEN_T(IDS_MENU_COLOR_RED_OUTER), &m_pState->m_fMvR, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_COLOR_RED_MOTION_VECTOR_TT), 0, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_COLOR_GREEN_OUTER), &m_pState->m_fMvG, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_COLOR_GREEN_MOTION_VECTOR_TT), 0, 1);
m_menuAugment.AddItem(MEN_T(IDS_MENU_COLOR_BLUE_OUTER), &m_pState->m_fMvB, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_COLOR_BLUE_MOTION_VECTOR_TT), 0, 1);
m_menuMotion.AddItem(MEN_T(IDS_MENU_ZOOM_AMOUNT), &m_pState->m_fZoom, MENUITEMTYPE_LOGBLENDABLE, MEN_TT(IDS_MENU_ZOOM_AMOUNT_TT));
m_menuMotion.AddItem(MEN_T(IDS_MENU_ZOOM_EXPONENT), &m_pState->m_fZoomExponent, MENUITEMTYPE_LOGBLENDABLE, MEN_TT(IDS_MENU_ZOOM_EXPONENT_TT));
m_menuMotion.AddItem(MEN_T(IDS_MENU_WARP_AMOUNT), &m_pState->m_fWarpAmount, MENUITEMTYPE_LOGBLENDABLE, MEN_TT(IDS_MENU_WARP_AMOUNT_TT));
m_menuMotion.AddItem(MEN_T(IDS_MENU_WARP_SCALE), &m_pState->m_fWarpScale, MENUITEMTYPE_LOGBLENDABLE, MEN_TT(IDS_MENU_WARP_SCALE_TT));
m_menuMotion.AddItem(MEN_T(IDS_MENU_WARP_SPEED), &m_pState->m_fWarpAnimSpeed, MENUITEMTYPE_LOGFLOAT, MEN_TT(IDS_MENU_WARP_SPEED_TT));
m_menuMotion.AddItem(MEN_T(IDS_MENU_ROTATION_AMOUNT), &m_pState->m_fRot, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_ROTATION_AMOUNT_TT), -1.00f, 1.00f);
m_menuMotion.AddItem(MEN_T(IDS_MENU_ROTATION_CENTER_OF_X), &m_pState->m_fRotCX, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_ROTATION_CENTER_OF_X_TT), -1.0f, 2.0f);
m_menuMotion.AddItem(MEN_T(IDS_MENU_ROTATION_CENTER_OF_Y), &m_pState->m_fRotCY, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_ROTATION_CENTER_OF_Y_TT), -1.0f, 2.0f);
m_menuMotion.AddItem(MEN_T(IDS_MENU_TRANSLATION_X), &m_pState->m_fXPush, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_TRANSLATION_X_TT), -1.0f, 1.0f);
m_menuMotion.AddItem(MEN_T(IDS_MENU_TRANSLATION_Y), &m_pState->m_fYPush, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_TRANSLATION_Y_TT), -1.0f, 1.0f);
m_menuMotion.AddItem(MEN_T(IDS_MENU_SCALING_X), &m_pState->m_fStretchX, MENUITEMTYPE_LOGBLENDABLE, MEN_TT(IDS_MENU_SCALING_X_TT));
m_menuMotion.AddItem(MEN_T(IDS_MENU_SCALING_Y), &m_pState->m_fStretchY, MENUITEMTYPE_LOGBLENDABLE, MEN_TT(IDS_MENU_SCALING_Y_TT));
m_menuPost.AddItem(MEN_T(IDS_MENU_SUSTAIN_LEVEL), &m_pState->m_fDecay, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_SUSTAIN_LEVEL_TT), 0.50f, 1.0f);
m_menuPost.AddItem(MEN_T(IDS_MENU_DARKEN_CENTER), &m_pState->m_bDarkenCenter, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_DARKEN_CENTER_TT));
m_menuPost.AddItem(MEN_T(IDS_MENU_GAMMA_ADJUSTMENT), &m_pState->m_fGammaAdj, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_GAMMA_ADJUSTMENT_TT), 1.0f, 8.0f);
m_menuPost.AddItem(MEN_T(IDS_MENU_HUE_SHADER), &m_pState->m_fShader, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_HUE_SHADER_TT), 0.0f, 1.0f);
m_menuPost.AddItem(MEN_T(IDS_MENU_VIDEO_ECHO_ALPHA), &m_pState->m_fVideoEchoAlpha, MENUITEMTYPE_BLENDABLE, MEN_TT(IDS_MENU_VIDEO_ECHO_ALPHA_TT), 0.0f, 1.0f);
m_menuPost.AddItem(MEN_T(IDS_MENU_VIDEO_ECHO_ZOOM), &m_pState->m_fVideoEchoZoom, MENUITEMTYPE_LOGBLENDABLE, MEN_TT(IDS_MENU_VIDEO_ECHO_ZOOM_TT));
m_menuPost.AddItem(MEN_T(IDS_MENU_VIDEO_ECHO_ORIENTATION), &m_pState->m_nVideoEchoOrientation, MENUITEMTYPE_INT, MEN_TT(IDS_MENU_VIDEO_ECHO_ORIENTATION_TT), 0.0f, 3.0f);
m_menuPost.AddItem(MEN_T(IDS_MENU_TEXTURE_WRAP), &m_pState->m_bTexWrap, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_TEXTURE_WRAP_TT));
//m_menuPost.AddItem("stereo 3D", &m_pState->m_bRedBlueStereo, MENUITEMTYPE_BOOL, "displays the image in stereo 3D; you need 3D glasses (with red and blue lenses) for this.");
m_menuPost.AddItem(MEN_T(IDS_MENU_FILTER_INVERT), &m_pState->m_bInvert, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_FILTER_INVERT_TT));
m_menuPost.AddItem(MEN_T(IDS_MENU_FILTER_BRIGHTEN), &m_pState->m_bBrighten, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_FILTER_BRIGHTEN_TT));
m_menuPost.AddItem(MEN_T(IDS_MENU_FILTER_DARKEN), &m_pState->m_bDarken, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_FILTER_DARKEN_TT));
m_menuPost.AddItem(MEN_T(IDS_MENU_FILTER_SOLARIZE), &m_pState->m_bSolarize, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_FILTER_SOLARIZE_TT));
m_menuPost.AddItem(MEN_T(IDS_MENU_BLUR1_EDGE_DARKEN_AMOUNT),&m_pState->m_fBlur1EdgeDarken, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_BLUR1_EDGE_DARKEN_AMOUNT_TT), 0.0f, 1.0f);
m_menuPost.AddItem(MEN_T(IDS_MENU_BLUR1_MIN_COLOR_VALUE), &m_pState->m_fBlur1Min, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_BLUR1_MIN_COLOR_VALUE_TT), 0.0f, 1.0f);
m_menuPost.AddItem(MEN_T(IDS_MENU_BLUR1_MAX_COLOR_VALUE), &m_pState->m_fBlur1Max, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_BLUR1_MAX_COLOR_VALUE_TT), 0.0f, 1.0f);
m_menuPost.AddItem(MEN_T(IDS_MENU_BLUR2_MIN_COLOR_VALUE), &m_pState->m_fBlur2Min, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_BLUR2_MIN_COLOR_VALUE_TT), 0.0f, 1.0f);
m_menuPost.AddItem(MEN_T(IDS_MENU_BLUR2_MAX_COLOR_VALUE), &m_pState->m_fBlur2Max, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_BLUR2_MAX_COLOR_VALUE_TT), 0.0f, 1.0f);
m_menuPost.AddItem(MEN_T(IDS_MENU_BLUR3_MIN_COLOR_VALUE), &m_pState->m_fBlur3Min, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_BLUR3_MIN_COLOR_VALUE_TT), 0.0f, 1.0f);
m_menuPost.AddItem(MEN_T(IDS_MENU_BLUR3_MAX_COLOR_VALUE), &m_pState->m_fBlur3Max, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_BLUR3_MAX_COLOR_VALUE_TT), 0.0f, 1.0f);
for (i=0; i<MAX_CUSTOM_WAVES; i++)
{
// blending: do both; fade opacities in/out (w/exagerrated weighting)
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_ENABLED), &m_pState->m_wave[i].enabled, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_ENABLED_TT)); // bool
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_NUMBER_OF_SAMPLES),&m_pState->m_wave[i].samples, MENUITEMTYPE_INT, MEN_TT(IDS_MENU_NUMBER_OF_SAMPLES_TT), 2, 512); // 0-512
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_L_R_SEPARATION), &m_pState->m_wave[i].sep, MENUITEMTYPE_INT, MEN_TT(IDS_MENU_L_R_SEPARATION_TT), 0, 256); // 0-512
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_SCALING), &m_pState->m_wave[i].scaling, MENUITEMTYPE_LOGFLOAT, MEN_TT(IDS_MENU_SCALING_TT));
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_SMOOTH), &m_pState->m_wave[i].smoothing, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_SMOOTHING_TT), 0, 1);
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_COLOR_RED), &m_pState->m_wave[i].r, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_COLOR_RED_TT), 0, 1);
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_COLOR_GREEN), &m_pState->m_wave[i].g, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_COLOR_GREEN_TT), 0, 1);
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_COLOR_BLUE), &m_pState->m_wave[i].b, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_COLOR_BLUE_TT), 0, 1);
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_OPACITY), &m_pState->m_wave[i].a, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_OPACITY_WAVE_TT), 0, 1);
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_USE_SPECTRUM), &m_pState->m_wave[i].bSpectrum, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_USE_SPECTRUM_TT)); // 0-5 [0=wave left, 1=wave center, 2=wave right; 3=spectrum left, 4=spec center, 5=spec right]
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_USE_DOTS), &m_pState->m_wave[i].bUseDots, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_USE_DOTS_WAVE_TT)); // bool
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_DRAW_THICK), &m_pState->m_wave[i].bDrawThick,MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_DRAW_THICK_WAVE_TT)); // bool
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_ADDITIVE_DRAWING), &m_pState->m_wave[i].bAdditive, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_ADDITIVE_DRAWING_WAVE_TT)); // bool
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_EXPORT_TO_FILE), (void*)UI_EXPORT_WAVE, MENUITEMTYPE_UIMODE,MEN_TT(IDS_MENU_EXPORT_TO_FILE_TT), 0, 0, NULL, UI_EXPORT_WAVE, i);
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_IMPORT_FROM_FILE), (void*)UI_IMPORT_WAVE, MENUITEMTYPE_UIMODE,MEN_TT(IDS_MENU_IMPORT_FROM_FILE_TT), 0, 0, NULL, UI_IMPORT_WAVE, i);
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_EDIT_INIT_CODE), &m_pState->m_wave[i].m_szInit, MENUITEMTYPE_STRING,MEN_TT(IDS_MENU_EDIT_INIT_CODE_TT), 256, 0, &OnUserEditedWavecodeInit, sizeof(m_pState->m_wave[i].m_szInit), 0);
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_EDIT_PER_FRAME_CODE), &m_pState->m_wave[i].m_szPerFrame, MENUITEMTYPE_STRING, MEN_TT(IDS_MENU_EDIT_PER_FRAME_CODE_TT), 256, 0, &OnUserEditedWavecode, sizeof(m_pState->m_wave[i].m_szPerFrame), 0);
m_menuWavecode[i].AddItem(MEN_T(IDS_MENU_EDIT_PER_POINT_CODE), &m_pState->m_wave[i].m_szPerPoint, MENUITEMTYPE_STRING, MEN_TT(IDS_MENU_EDIT_PER_POINT_CODE_TT), 256, 0, &OnUserEditedWavecode, sizeof(m_pState->m_wave[i].m_szPerPoint), 0);
}
for (i=0; i<MAX_CUSTOM_SHAPES; i++)
{
// blending: do both; fade opacities in/out (w/exagerrated weighting)
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_ENABLED), &m_pState->m_shape[i].enabled, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_ENABLED_SHAPE_TT)); // bool
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_NUMBER_OF_INSTANCES), &m_pState->m_shape[i].instances,MENUITEMTYPE_INT, MEN_TT(IDS_MENU_NUMBER_OF_INSTANCES_TT), 1, 1024);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_NUMBER_OF_SIDES), &m_pState->m_shape[i].sides, MENUITEMTYPE_INT, MEN_TT(IDS_MENU_NUMBER_OF_SIDES_TT), 3, 100);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_DRAW_THICK), &m_pState->m_shape[i].thickOutline, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_DRAW_THICK_SHAPE_TT)); // bool
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_ADDITIVE_DRAWING), &m_pState->m_shape[i].additive, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_ADDITIVE_DRAWING_SHAPE_TT)); // bool
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_X_POSITION), &m_pState->m_shape[i].x, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_X_POSITION_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_Y_POSITION), &m_pState->m_shape[i].y, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_Y_POSITION_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_RADIUS), &m_pState->m_shape[i].rad, MENUITEMTYPE_LOGFLOAT, MEN_TT(IDS_MENU_RADIUS_TT));
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_ANGLE), &m_pState->m_shape[i].ang, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_ANGLE_TT), 0, 3.1415927f*2.0f);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_TEXTURED), &m_pState->m_shape[i].textured, MENUITEMTYPE_BOOL, MEN_TT(IDS_MENU_TEXTURED_TT)); // bool
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_TEXTURE_ZOOM), &m_pState->m_shape[i].tex_zoom, MENUITEMTYPE_LOGFLOAT, MEN_TT(IDS_MENU_TEXTURE_ZOOM_TT)); // bool
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_TEXTURE_ANGLE), &m_pState->m_shape[i].tex_ang, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_TEXTURE_ANGLE_TT), 0, 3.1415927f*2.0f); // bool
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_INNER_COLOR_RED), &m_pState->m_shape[i].r, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_INNER_COLOR_RED_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_INNER_COLOR_GREEN), &m_pState->m_shape[i].g, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_INNER_COLOR_GREEN_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_INNER_COLOR_BLUE), &m_pState->m_shape[i].b, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_INNER_COLOR_BLUE_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_INNER_OPACITY), &m_pState->m_shape[i].a, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_INNER_OPACITY_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_OUTER_COLOR_RED), &m_pState->m_shape[i].r2, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_OUTER_COLOR_RED_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_OUTER_COLOR_GREEN), &m_pState->m_shape[i].g2, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_OUTER_COLOR_GREEN_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_OUTER_COLOR_BLUE), &m_pState->m_shape[i].b2, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_OUTER_COLOR_BLUE_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_OUTER_OPACITY), &m_pState->m_shape[i].a2, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_OUTER_OPACITY_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_BORDER_COLOR_RED), &m_pState->m_shape[i].border_r, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_BORDER_COLOR_RED_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_BORDER_COLOR_GREEN), &m_pState->m_shape[i].border_g, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_BORDER_COLOR_GREEN_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_BORDER_COLOR_BLUE), &m_pState->m_shape[i].border_b, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_BORDER_COLOR_BLUE_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_BORDER_OPACITY), &m_pState->m_shape[i].border_a, MENUITEMTYPE_FLOAT, MEN_TT(IDS_MENU_BORDER_OPACITY_TT), 0, 1);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_EXPORT_TO_FILE), NULL, MENUITEMTYPE_UIMODE, MEN_TT(IDS_MENU_EXPORT_TO_FILE_SHAPE_TT), 0, 0, NULL, UI_EXPORT_SHAPE, i);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_IMPORT_FROM_FILE), NULL, MENUITEMTYPE_UIMODE, MEN_TT(IDS_MENU_IMPORT_FROM_FILE_SHAPE_TT), 0, 0, NULL, UI_IMPORT_SHAPE, i);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_EDIT_INIT_CODE), &m_pState->m_shape[i].m_szInit, MENUITEMTYPE_STRING, MEN_TT(IDS_MENU_EDIT_INIT_CODE_SHAPE_TT), 256, 0, &OnUserEditedShapecodeInit, sizeof(m_pState->m_shape[i].m_szInit), 0);
m_menuShapecode[i].AddItem(MEN_T(IDS_MENU_EDIT_PER_FRAME_INSTANCE_CODE), &m_pState->m_shape[i].m_szPerFrame, MENUITEMTYPE_STRING, MEN_TT(IDS_MENU_EDIT_PER_FRAME_INSTANCE_CODE_TT), 256, 0, &OnUserEditedShapecode, sizeof(m_pState->m_shape[i].m_szPerFrame), 0);
//m_menuShapecode[i].AddItem("[ edit per-point code ]",&m_pState->m_shape[i].m_szPerPoint, MENUITEMTYPE_STRING, "IN: sample [0..1]; value1 [left ch], value2 [right ch], plus all vars for per-frame code / OUT: x,y; r,g,b,a; t1-t8", 256, 0, &OnUserEditedWavecode);
}
}
void CPlugin::WriteRealtimeConfig()
{
WritePrivateProfileIntW(m_bShowFPS, L"bShowFPS",GetConfigIniFile(), L"settings");
WritePrivateProfileIntW(m_bShowRating, L"bShowRating",GetConfigIniFile(), L"settings");
WritePrivateProfileIntW(m_bShowPresetInfo, L"bShowPresetInfo",GetConfigIniFile(), L"settings");
WritePrivateProfileIntW(m_bShowSongTitle, L"bShowSongTitle",GetConfigIniFile(), L"settings");
WritePrivateProfileIntW(m_bShowSongTime, L"bShowSongTime",GetConfigIniFile(), L"settings");
WritePrivateProfileIntW(m_bShowSongLen, L"bShowSongLen",GetConfigIniFile(), L"settings");
}
void CPlugin::dumpmsg(wchar_t *s)
{
#if _DEBUG
OutputDebugStringW(s);
if (s[0])
{
int len = lstrlenW(s);
if (s[len-1] != L'\n')
OutputDebugStringW(L"\n");
}
#endif
}
void CPlugin::PrevPreset(float fBlendTime)
{
if (m_bSequentialPresetOrder)
{
m_nCurrentPreset--;
if (m_nCurrentPreset < m_nDirs)
m_nCurrentPreset = m_nPresets-1;
if (m_nCurrentPreset >= m_nPresets) // just in case
m_nCurrentPreset = m_nDirs;
wchar_t szFile[MAX_PATH];
lstrcpyW(szFile, m_szPresetDir); // note: m_szPresetDir always ends with '\'
lstrcatW(szFile, m_presets[m_nCurrentPreset].szFilename.c_str());
LoadPreset(szFile, fBlendTime);
}
else
{
int prev = (m_presetHistoryPos-1 + PRESET_HIST_LEN) % PRESET_HIST_LEN;
if (m_presetHistoryPos != m_presetHistoryBackFence)
{
m_presetHistoryPos = prev;
LoadPreset( m_presetHistory[m_presetHistoryPos].c_str(), fBlendTime);
}
}
}
void CPlugin::NextPreset(float fBlendTime) // if not retracing our former steps, it will choose a random one.
{
LoadRandomPreset(fBlendTime);
}
void CPlugin::LoadRandomPreset(float fBlendTime)
{
// make sure file list is ok
if (m_nPresets - m_nDirs == 0)
{
if (m_nPresets - m_nDirs == 0)
{
// note: this error message is repeated in milkdropfs.cpp in DrawText()
wchar_t buf[1024];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_ERROR_NO_PRESET_FILE_FOUND_IN_X_MILK), m_szPresetDir);
AddError(buf, 6.0f, ERR_MISC, true);
// also bring up the dir. navigation menu...
if (m_UI_mode == UI_REGULAR || m_UI_mode == UI_MENU)
{
m_UI_mode = UI_LOAD;
m_bUserPagedUp = false;
m_bUserPagedDown = false;
}
return;
}
}
bool bHistoryEmpty = (m_presetHistoryFwdFence==m_presetHistoryBackFence);
// if we have history to march back forward through, do that first
if (!m_bSequentialPresetOrder)
{
int next = (m_presetHistoryPos+1) % PRESET_HIST_LEN;
if (next != m_presetHistoryFwdFence && !bHistoryEmpty)
{
m_presetHistoryPos = next;
LoadPreset( m_presetHistory[m_presetHistoryPos].c_str(), fBlendTime);
return;
}
}
// --TEMPORARY--
// this comes in handy if you want to mass-modify a batch of presets;
// just automatically tweak values in Import, then they immediately get exported to a .MILK in a new dir.
/*
for (int i=0; i<m_nPresets; i++)
{
char szPresetFile[512];
lstrcpy(szPresetFile, m_szPresetDir); // note: m_szPresetDir always ends with '\'
lstrcat(szPresetFile, m_pPresetAddr[i]);
//CState newstate;
m_state2.Import(szPresetFile, GetTime());
lstrcpy(szPresetFile, "c:\\t7\\");
lstrcat(szPresetFile, m_pPresetAddr[i]);
m_state2.Export(szPresetFile);
}
*/
// --[END]TEMPORARY--
if (m_bSequentialPresetOrder)
{
m_nCurrentPreset++;
if (m_nCurrentPreset < m_nDirs || m_nCurrentPreset >= m_nPresets)
m_nCurrentPreset = m_nDirs;
}
else
{
// pick a random file
if (!m_bEnableRating || (m_presets[m_nPresets - 1].fRatingCum < 0.1f))// || (m_nRatingReadProgress < m_nPresets))
{
m_nCurrentPreset = m_nDirs + (warand() % (m_nPresets - m_nDirs));
}
else
{
float cdf_pos = (warand() % 14345)/14345.0f*m_presets[m_nPresets - 1].fRatingCum;
/*
char buf[512];
sprintf(buf, "max = %f, rand = %f, \tvalues: ", m_presets[m_nPresets - 1].fRatingCum, cdf_pos);
for (int i=m_nDirs; i<m_nPresets; i++)
{
char buf2[32];
sprintf(buf2, "%3.1f ", m_presets[i].fRatingCum);
lstrcat(buf, buf2);
}
dumpmsg(buf);
*/
if (cdf_pos < m_presets[m_nDirs].fRatingCum)
{
m_nCurrentPreset = m_nDirs;
}
else
{
int lo = m_nDirs;
int hi = m_nPresets;
while (lo + 1 < hi)
{
int mid = (lo+hi)/2;
if (m_presets[mid].fRatingCum > cdf_pos)
hi = mid;
else
lo = mid;
}
m_nCurrentPreset = hi;
}
}
}
// m_pPresetAddr[m_nCurrentPreset] points to the preset file to load (w/o the path);
// first prepend the path, then load section [preset00] within that file
wchar_t szFile[MAX_PATH] = {0};
lstrcpyW(szFile, m_szPresetDir); // note: m_szPresetDir always ends with '\'
lstrcatW(szFile, m_presets[m_nCurrentPreset].szFilename.c_str());
if (!bHistoryEmpty)
m_presetHistoryPos = (m_presetHistoryPos+1) % PRESET_HIST_LEN;
LoadPreset(szFile, fBlendTime);
}
void CPlugin::RandomizeBlendPattern()
{
if (!m_vertinfo)
return;
// note: we now avoid constant uniform blend b/c it's half-speed for shader blending.
// (both old & new shaders would have to run on every pixel...)
int mixtype = 1 + (warand()%3);//warand()%4;
if (mixtype==0)
{
// constant, uniform blend
int nVert = 0;
for (int y=0; y<=m_nGridY; y++)
{
for (int x=0; x<=m_nGridX; x++)
{
m_vertinfo[nVert].a = 1;
m_vertinfo[nVert].c = 0;
nVert++;
}
}
}
else if (mixtype==1)
{
// directional wipe
float ang = FRAND*6.28f;
float vx = cosf(ang);
float vy = sinf(ang);
float band = 0.1f + 0.2f*FRAND; // 0.2 is good
float inv_band = 1.0f/band;
int nVert = 0;
for (int y=0; y<=m_nGridY; y++)
{
float fy = (y/(float)m_nGridY)*m_fAspectY;
for (int x=0; x<=m_nGridX; x++)
{
float fx = (x/(float)m_nGridX)*m_fAspectX;
// at t==0, mix rangse from -10..0
// at t==1, mix ranges from 1..11
float t = (fx-0.5f)*vx + (fy-0.5f)*vy + 0.5f;
t = (t-0.5f)/sqrtf(2.0f) + 0.5f;
m_vertinfo[nVert].a = inv_band * (1 + band);
m_vertinfo[nVert].c = -inv_band + inv_band*t;//(x/(float)m_nGridX - 0.5f)/band;
nVert++;
}
}
}
else if (mixtype==2)
{
// plasma transition
float band = 0.12f + 0.13f*FRAND;//0.02f + 0.18f*FRAND;
float inv_band = 1.0f/band;
// first generate plasma array of height values
m_vertinfo[ 0].c = FRAND;
m_vertinfo[ m_nGridX].c = FRAND;
m_vertinfo[m_nGridY*(m_nGridX+1) ].c = FRAND;
m_vertinfo[m_nGridY*(m_nGridX+1) + m_nGridX].c = FRAND;
GenPlasma(0, m_nGridX, 0, m_nGridY, 0.25f);
// then find min,max so we can normalize to [0..1] range and then to the proper 'constant offset' range.
float minc = m_vertinfo[0].c;
float maxc = m_vertinfo[0].c;
int x,y,nVert;
nVert = 0;
for (y=0; y<=m_nGridY; y++)
{
for (x=0; x<=m_nGridX; x++)
{
if (minc > m_vertinfo[nVert].c)
minc = m_vertinfo[nVert].c;
if (maxc < m_vertinfo[nVert].c)
maxc = m_vertinfo[nVert].c;
nVert++;
}
}
float mult = 1.0f/(maxc-minc);
nVert = 0;
for (y=0; y<=m_nGridY; y++)
{
for (x=0; x<=m_nGridX; x++)
{
float t = (m_vertinfo[nVert].c - minc)*mult;
m_vertinfo[nVert].a = inv_band * (1 + band);
m_vertinfo[nVert].c = -inv_band + inv_band*t;
nVert++;
}
}
}
else if (mixtype==3)
{
// radial blend
float band = 0.02f + 0.14f*FRAND + 0.34f*FRAND;
float inv_band = 1.0f/band;
float dir = (float)((warand()%2)*2 - 1); // 1=outside-in, -1=inside-out
int nVert = 0;
for (int y=0; y<=m_nGridY; y++)
{
float dy = (y/(float)m_nGridY - 0.5f)*m_fAspectY;
for (int x=0; x<=m_nGridX; x++)
{
float dx = (x/(float)m_nGridX - 0.5f)*m_fAspectX;
float t = sqrtf(dx*dx + dy*dy)*1.41421f;
if (dir==-1)
t = 1-t;
m_vertinfo[nVert].a = inv_band * (1 + band);
m_vertinfo[nVert].c = -inv_band + inv_band*t;
nVert++;
}
}
}
}
void CPlugin::GenPlasma(int x0, int x1, int y0, int y1, float dt)
{
int midx = (x0+x1)/2;
int midy = (y0+y1)/2;
float t00 = m_vertinfo[y0*(m_nGridX+1) + x0].c;
float t01 = m_vertinfo[y0*(m_nGridX+1) + x1].c;
float t10 = m_vertinfo[y1*(m_nGridX+1) + x0].c;
float t11 = m_vertinfo[y1*(m_nGridX+1) + x1].c;
if (y1-y0 >= 2)
{
if (x0==0)
m_vertinfo[midy*(m_nGridX+1) + x0].c = 0.5f*(t00 + t10) + (FRAND*2-1)*dt*m_fAspectY;
m_vertinfo[midy*(m_nGridX+1) + x1].c = 0.5f*(t01 + t11) + (FRAND*2-1)*dt*m_fAspectY;
}
if (x1-x0 >= 2)
{
if (y0==0)
m_vertinfo[y0*(m_nGridX+1) + midx].c = 0.5f*(t00 + t01) + (FRAND*2-1)*dt*m_fAspectX;
m_vertinfo[y1*(m_nGridX+1) + midx].c = 0.5f*(t10 + t11) + (FRAND*2-1)*dt*m_fAspectX;
}
if (y1-y0 >= 2 && x1-x0 >= 2)
{
// do midpoint & recurse:
t00 = m_vertinfo[midy*(m_nGridX+1) + x0].c;
t01 = m_vertinfo[midy*(m_nGridX+1) + x1].c;
t10 = m_vertinfo[y0*(m_nGridX+1) + midx].c;
t11 = m_vertinfo[y1*(m_nGridX+1) + midx].c;
m_vertinfo[midy*(m_nGridX+1) + midx].c = 0.25f*(t10 + t11 + t00 + t01) + (FRAND*2-1)*dt;
GenPlasma(x0, midx, y0, midy, dt*0.5f);
GenPlasma(midx, x1, y0, midy, dt*0.5f);
GenPlasma(x0, midx, midy, y1, dt*0.5f);
GenPlasma(midx, x1, midy, y1, dt*0.5f);
}
}
void CPlugin::LoadPreset(const wchar_t *szPresetFilename, float fBlendTime)
{
// clear old error msg...
if (m_nFramesSinceResize > 4)
ClearErrors(ERR_PRESET);
// make sure preset still exists. (might not if they are using the "back"/fwd buttons
// in RANDOM preset order and a file was renamed or deleted!)
if (GetFileAttributesW(szPresetFilename) == 0xFFFFFFFF)
{
const wchar_t *p = wcsrchr(szPresetFilename, L'\\');
p = (p) ? p+1 : szPresetFilename;
wchar_t buf[1024];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_ERROR_PRESET_NOT_FOUND_X), p);
AddError(buf, 6.0f, ERR_PRESET, true);
return;
}
if ( !m_bSequentialPresetOrder )
{
// save preset in the history. keep in mind - maybe we are searching back through it already!
if ( m_presetHistoryFwdFence == m_presetHistoryPos )
{
// we're at the forward frontier; add to history
m_presetHistory[m_presetHistoryPos] = szPresetFilename;
m_presetHistoryFwdFence = (m_presetHistoryFwdFence+1) % PRESET_HIST_LEN;
// don't let the two fences touch
if (m_presetHistoryBackFence == m_presetHistoryFwdFence)
m_presetHistoryBackFence = (m_presetHistoryBackFence+1) % PRESET_HIST_LEN;
}
else
{
// we're retracing our steps, either forward or backward...
}
}
// if no preset was valid before, make sure there is no blend, because there is nothing valid to blend from.
if (!wcscmp(m_pState->m_szDesc, INVALID_PRESET_DESC))
fBlendTime = 0;
if (fBlendTime == 0)
{
// do it all NOW!
if (szPresetFilename != m_szCurrentPresetFile) //[sic]
lstrcpyW(m_szCurrentPresetFile, szPresetFilename);
CState *temp = m_pState;
m_pState = m_pOldState;
m_pOldState = temp;
DWORD ApplyFlags = STATE_ALL;
ApplyFlags ^= (m_bWarpShaderLock ? STATE_WARP : 0);
ApplyFlags ^= (m_bCompShaderLock ? STATE_COMP : 0);
m_pState->Import(m_szCurrentPresetFile, GetTime(), m_pOldState, ApplyFlags);
if (fBlendTime >= 0.001f)
{
RandomizeBlendPattern();
m_pState->StartBlendFrom(m_pOldState, GetTime(), fBlendTime);
}
m_fPresetStartTime = GetTime();
m_fNextPresetTime = -1.0f; // flags UpdateTime() to recompute this
// release stuff from m_OldShaders, then move m_shaders to m_OldShaders, then load the new shaders.
SafeRelease( m_OldShaders.comp.ptr );
SafeRelease( m_OldShaders.warp.ptr );
SafeRelease( m_OldShaders.comp.CT );
SafeRelease( m_OldShaders.warp.CT );
m_OldShaders = m_shaders;
ZeroMemory(&m_shaders, sizeof(PShaderSet));
LoadShaders(&m_shaders, m_pState, false);
OnFinishedLoadingPreset();
}
else
{
// set ourselves up to load the preset (and esp. compile shaders) a little bit at a time
SafeRelease( m_NewShaders.comp.ptr );
SafeRelease( m_NewShaders.warp.ptr );
ZeroMemory(&m_NewShaders, sizeof(PShaderSet));
DWORD ApplyFlags = STATE_ALL;
ApplyFlags ^= (m_bWarpShaderLock ? STATE_WARP : 0);
ApplyFlags ^= (m_bCompShaderLock ? STATE_COMP : 0);
m_pNewState->Import(szPresetFilename, GetTime(), m_pOldState, ApplyFlags);
m_nLoadingPreset = 1; // this will cause LoadPresetTick() to get called over the next few frames...
m_fLoadingPresetBlendTime = fBlendTime;
lstrcpyW(m_szLoadingPreset, szPresetFilename);
}
}
void CPlugin::OnFinishedLoadingPreset()
{
// note: only used this if you loaded the preset *intact* (or mostly intact)
SetMenusForPresetVersion( m_pState->m_nWarpPSVersion, m_pState->m_nCompPSVersion );
m_nPresetsLoadedTotal++; //only increment this on COMPLETION of the load.
for (int mash=0; mash<MASH_SLOTS; mash++)
m_nMashPreset[mash] = m_nCurrentPreset;
}
void CPlugin::LoadPresetTick()
{
if (m_nLoadingPreset == 2 || m_nLoadingPreset == 5)
{
// just loads one shader (warp or comp) then returns.
LoadShaders(&m_NewShaders, m_pNewState, true);
}
else if (m_nLoadingPreset == 8)
{
// finished loading the shaders - apply the preset!
lstrcpyW(m_szCurrentPresetFile, m_szLoadingPreset);
m_szLoadingPreset[0] = 0;
CState *temp = m_pState;
m_pState = m_pOldState;
m_pOldState = temp;
temp = m_pState;
m_pState = m_pNewState;
m_pNewState = temp;
RandomizeBlendPattern();
//if (fBlendTime >= 0.001f)
m_pState->StartBlendFrom(m_pOldState, GetTime(), m_fLoadingPresetBlendTime);
m_fPresetStartTime = GetTime();
m_fNextPresetTime = -1.0f; // flags UpdateTime() to recompute this
// release stuff from m_OldShaders, then move m_shaders to m_OldShaders, then load the new shaders.
SafeRelease( m_OldShaders.comp.ptr );
SafeRelease( m_OldShaders.warp.ptr );
m_OldShaders = m_shaders;
m_shaders = m_NewShaders;
ZeroMemory(&m_NewShaders, sizeof(PShaderSet));
// end slow-preset-load mode
m_nLoadingPreset = 0;
OnFinishedLoadingPreset();
}
if (m_nLoadingPreset > 0)
m_nLoadingPreset++;
}
void CPlugin::SeekToPreset(wchar_t cStartChar)
{
if (cStartChar >= L'a' && cStartChar <= L'z')
cStartChar -= L'a' - L'A';
for (int i = m_nDirs; i < m_nPresets; i++)
{
wchar_t ch = m_presets[i].szFilename.c_str()[0];
if (ch >= L'a' && ch <= L'z')
ch -= L'a' - L'A';
if (ch == cStartChar)
{
m_nPresetListCurPos = i;
return;
}
}
}
void CPlugin::FindValidPresetDir()
{
swprintf(m_szPresetDir, L"%spresets\\", m_szMilkdrop2Path );
if (GetFileAttributesW(m_szPresetDir) != -1)
return;
lstrcpyW(m_szPresetDir, m_szMilkdrop2Path);
if (GetFileAttributesW(m_szPresetDir) != -1)
return;
lstrcpyW(m_szPresetDir, GetPluginsDirPath());
if (GetFileAttributesW(m_szPresetDir) != -1)
return;
lstrcpyW(m_szPresetDir, L"c:\\program files\\winamp\\"); //getting desperate here
if (GetFileAttributesW(m_szPresetDir) != -1)
return;
lstrcpyW(m_szPresetDir, L"c:\\program files\\"); //getting desperate here
if (GetFileAttributesW(m_szPresetDir) != -1)
return;
lstrcpyW(m_szPresetDir, L"c:\\");
}
char* NextLine(char* p)
{
// p points to the beginning of a line
// we'll return a pointer to the first char of the next line
// if we hit a NULL char before that, we'll return NULL.
if (!p)
return NULL;
char* s = p;
while (*s != '\r' && *s != '\n' && *s != 0)
s++;
while (*s == '\r' || *s == '\n')
s++;
if (*s==0)
return NULL;
return s;
}
static unsigned int WINAPI __UpdatePresetList(void* lpVoid)
{
// NOTE - this is run in a separate thread!!!
DWORD flags = (DWORD)lpVoid;
bool bForce = (flags & 1) ? true : false;
bool bTryReselectCurrentPreset = (flags & 2) ? true : false;
WIN32_FIND_DATAW fd;
ZeroMemory(&fd, sizeof(fd));
HANDLE h = INVALID_HANDLE_VALUE;
int nTry = 0;
bool bRetrying = false;
EnterCriticalSection(&g_cs);
retry:
// make sure the path exists; if not, go to winamp plugins dir
if (GetFileAttributesW(g_plugin.m_szPresetDir) == -1)
{
//FIXME...
g_plugin.FindValidPresetDir();
}
// if Mask (dir) changed, do a full re-scan;
// if not, just finish our old scan.
wchar_t szMask[MAX_PATH];
swprintf(szMask, L"%s*.*", g_plugin.m_szPresetDir); // cuz dirnames could have extensions, etc.
if (bForce || !g_plugin.m_szUpdatePresetMask[0] || wcscmp(szMask, g_plugin.m_szUpdatePresetMask))
{
// if old dir was "" or the dir changed, reset our search
if (h != INVALID_HANDLE_VALUE)
FindClose(h);
h = INVALID_HANDLE_VALUE;
g_plugin.m_bPresetListReady = false;
lstrcpyW(g_plugin.m_szUpdatePresetMask, szMask);
ZeroMemory(&fd, sizeof(fd));
g_plugin.m_nPresets = 0;
g_plugin.m_nDirs = 0;
g_plugin.m_presets.clear();
// find first .MILK file
//if( (hFile = _findfirst(szMask, &c_file )) != -1L ) // note: returns filename -without- path
if( (h = FindFirstFileW(g_plugin.m_szUpdatePresetMask, &fd )) == INVALID_HANDLE_VALUE ) // note: returns filename -without- path
{
// --> revert back to plugins dir
wchar_t buf[1024];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_ERROR_NO_PRESET_FILES_OR_DIRS_FOUND_IN_X), g_plugin.m_szPresetDir);
g_plugin.AddError(buf, 4.0f, ERR_MISC, true);
if (bRetrying)
{
LeaveCriticalSection(&g_cs);
g_bThreadAlive = false;
_endthreadex(0);
return 0;
}
g_plugin.FindValidPresetDir();
bRetrying = true;
goto retry;
}
g_plugin.AddError(WASABI_API_LNGSTRINGW(IDS_SCANNING_PRESETS), 8.0f, ERR_SCANNING_PRESETS, false);
}
if (g_plugin.m_bPresetListReady)
{
LeaveCriticalSection(&g_cs);
g_bThreadAlive = false;
_endthreadex(0);
return 0;
}
int nMaxPSVersion = g_plugin.m_nMaxPSVersion;
wchar_t szPresetDir[MAX_PATH];
lstrcpyW(szPresetDir, g_plugin.m_szPresetDir);
LeaveCriticalSection(&g_cs);
PresetList temp_presets;
int temp_nDirs = 0;
int temp_nPresets = 0;
// scan for the desired # of presets, this call...
while (!g_bThreadShouldQuit && h != INVALID_HANDLE_VALUE)
{
bool bSkip = false;
bool bIsDir = (fd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0;
float fRating = 0;
wchar_t szFilename[512];
lstrcpyW(szFilename, fd.cFileName);
if (bIsDir)
{
// skip "." directory
if (wcscmp(fd.cFileName, L".")==0)// || lstrlen(ffd.cFileName) < 1)
bSkip = true;
else
swprintf(szFilename, L"*%s", fd.cFileName);
}
else
{
// skip normal files not ending in ".milk"
int len = lstrlenW(fd.cFileName);
if (len < 5 || wcsicmp(fd.cFileName + len - 5, L".milk") != 0)
bSkip = true;
// if it is .milk, make sure we know how to run its pixel shaders -
// otherwise we don't want to show it in the preset list!
if (!bSkip)
{
// If the first line of the file is not "MILKDROP_PRESET_VERSION XXX",
// then it's a MilkDrop 1 era preset, so it is definitely runnable. (no shaders)
// Otherwise, check for the value "PSVERSION". It will be 0, 2, or 3.
// If missing, assume it is 2.
wchar_t szFullPath[MAX_PATH];
swprintf(szFullPath, L"%s%s", szPresetDir, fd.cFileName);
FILE* f = _wfopen(szFullPath, L"r");
if (!f)
bSkip = true;
else {
#define PRESET_HEADER_SCAN_BYTES 160
char szLine[PRESET_HEADER_SCAN_BYTES];
char *p = szLine;
int bytes_to_read = sizeof(szLine)-1;
int count = fread(szLine, bytes_to_read, 1, f);
if (count < 1) {
fseek(f, SEEK_SET, 0);
count = fread(szLine, 1, bytes_to_read, f);
szLine[ count ] = 0;
}
else
szLine[bytes_to_read-1] = 0;
bool bScanForPreset00AndRating = false;
bool bRatingKnown = false;
// try to read the PSVERSION and the fRating= value.
// most presets (unless hand-edited) will have these right at the top.
// if not, [at least for fRating] use GetPrivateProfileFloat to search whole file.
// read line 1
//p = NextLine(p);//fgets(p, sizeof(p)-1, f);
if (!strncmp(p, "MILKDROP_PRESET_VERSION", 23))
{
p = NextLine(p);//fgets(p, sizeof(p)-1, f);
int ps_version = 2;
if (p && !strncmp(p, "PSVERSION", 9))
{
sscanf(&p[10], "%d", &ps_version);
if (ps_version > nMaxPSVersion)
bSkip = true;
else
{
p = NextLine(p);//fgets(p, sizeof(p)-1, f);
bScanForPreset00AndRating = true;
}
}
}
else
{
// otherwise it's a MilkDrop 1 preset - we can run it.
bScanForPreset00AndRating = true;
}
// scan up to 10 more lines in the file, looking for [preset00] and fRating=...
// (this is WAY faster than GetPrivateProfileFloat, when it works!)
int reps = (bScanForPreset00AndRating) ? 10 : 0;
for (int z=0; z<reps; z++)
{
if (p && !strncmp(p, "[preset00]", 10))
{
p = NextLine(p);
if (p && !strncmp(p, "fRating=", 8))
{
_sscanf_l(&p[8], "%f", g_use_C_locale, &fRating);
bRatingKnown = true;
break;
}
}
p = NextLine(p);
}
fclose(f);
if (!bRatingKnown)
fRating = GetPrivateProfileFloatW(L"preset00", L"fRating", 3.0f, szFullPath);
fRating = max(0.0f, min(5.0f, fRating));
}
}
}
if (!bSkip)
{
float fPrevPresetRatingCum = 0;
if (temp_nPresets > 0)
fPrevPresetRatingCum += temp_presets[temp_nPresets-1].fRatingCum;
PresetInfo x;
x.szFilename = szFilename;
x.fRatingThis = fRating;
x.fRatingCum = fPrevPresetRatingCum + fRating;
temp_presets.push_back(x);
temp_nPresets++;
if (bIsDir)
temp_nDirs++;
}
if (!FindNextFileW(h, &fd))
{
FindClose(h);
h = INVALID_HANDLE_VALUE;
break;
}
// every so often, add some presets...
#define PRESET_UPDATE_INTERVAL 64
if (temp_nPresets == 30 || ((temp_nPresets % PRESET_UPDATE_INTERVAL)==0))
{
EnterCriticalSection(&g_cs);
//g_plugin.m_presets = temp_presets;
for (int i=g_plugin.m_nPresets; i<temp_nPresets; i++)
g_plugin.m_presets.push_back(temp_presets[i]);
g_plugin.m_nPresets = temp_nPresets;
g_plugin.m_nDirs = temp_nDirs;
LeaveCriticalSection(&g_cs);
}
}
if (g_bThreadShouldQuit)
{
// just abort... we are exiting the program or restarting the scan.
g_bThreadAlive = false;
_endthreadex(0);
return 0;
}
EnterCriticalSection(&g_cs);
//g_plugin.m_presets = temp_presets;
for (int i=g_plugin.m_nPresets; i<temp_nPresets; i++)
g_plugin.m_presets.push_back(temp_presets[i]);
g_plugin.m_nPresets = temp_nPresets;
g_plugin.m_nDirs = temp_nDirs;
g_plugin.m_bPresetListReady = true;
if (g_plugin.m_bPresetListReady && g_plugin.m_nPresets == 0)
{
// no presets OR directories found - weird - but it happens.
// --> revert back to plugins dir
wchar_t buf[1024];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_ERROR_NO_PRESET_FILES_OR_DIRS_FOUND_IN_X), g_plugin.m_szPresetDir);
g_plugin.AddError(buf, 4.0f, ERR_MISC, true);
if (bRetrying)
{
LeaveCriticalSection(&g_cs);
g_bThreadAlive = false;
_endthreadex(0);
return 0;
}
g_plugin.FindValidPresetDir();
bRetrying = true;
goto retry;
}
if (g_plugin.m_bPresetListReady)
{
g_plugin.MergeSortPresets(0, g_plugin.m_nPresets-1);
// update cumulative ratings, since order changed...
g_plugin.m_presets[0].fRatingCum = g_plugin.m_presets[0].fRatingThis;
for (int i=0; i<g_plugin.m_nPresets; i++)
g_plugin.m_presets[i].fRatingCum = g_plugin.m_presets[i-1].fRatingCum + g_plugin.m_presets[i].fRatingThis;
// clear the "scanning presets" msg
g_plugin.ClearErrors(ERR_SCANNING_PRESETS);
// finally, try to re-select the most recently-used preset in the list
g_plugin.m_nPresetListCurPos = 0;
if (bTryReselectCurrentPreset)
{
if (g_plugin.m_szCurrentPresetFile[0])
{
// try to automatically seek to the last preset loaded
wchar_t *p = wcsrchr(g_plugin.m_szCurrentPresetFile, L'\\');
p = (p) ? (p+1) : g_plugin.m_szCurrentPresetFile;
for (int i=g_plugin.m_nDirs; i<g_plugin.m_nPresets; i++)
{
if (wcscmp(p, g_plugin.m_presets[i].szFilename.c_str())==0) {
g_plugin.m_nPresetListCurPos = i;
break;
}
}
}
}
}
LeaveCriticalSection(&g_cs);
g_bThreadAlive = false;
_endthreadex(0);
return 0;
}
void CPlugin::UpdatePresetList(bool bBackground, bool bForce, bool bTryReselectCurrentPreset)
{
// note: if dir changed, make sure bForce is true!
if (bForce)
{
if (g_bThreadAlive)
CancelThread(3000); // flags it to exit; the param is the # of ms to wait before forcefully killing it
}
else
{
if (bBackground && (g_bThreadAlive || m_bPresetListReady))
return;
if (!bBackground && m_bPresetListReady)
return;
}
assert(!g_bThreadAlive);
// spawn new thread:
DWORD flags = (bForce ? 1 : 0) | (bTryReselectCurrentPreset ? 2 : 0);
g_bThreadShouldQuit = false;
g_bThreadAlive = true;
g_hThread = (HANDLE)_beginthreadex(NULL,0,__UpdatePresetList,(void*)flags,0,0);
if (!bBackground)
{
// crank up priority, wait for it to finish, and then return
SetThreadPriority(g_hThread,THREAD_PRIORITY_HIGHEST); //THREAD_PRIORITY_IDLE, THREAD_PRIORITY_LOWEST, THREAD_PRIORITY_NORMAL, THREAD_PRIORITY_HIGHEST,
// wait for it to finish
while (g_bThreadAlive)
Sleep(30);
assert(g_hThread != INVALID_HANDLE_VALUE);
CloseHandle(g_hThread);
g_hThread = INVALID_HANDLE_VALUE;
}
else
{
// it will just run in the background til it finishes.
// however, we want to wait until at least ~32 presets are found (or failure) before returning,
// so we know we have *something* in the preset list to start with.
SetThreadPriority(g_hThread,THREAD_PRIORITY_HIGHEST); //THREAD_PRIORITY_IDLE, THREAD_PRIORITY_LOWEST, THREAD_PRIORITY_NORMAL, THREAD_PRIORITY_HIGHEST,
// wait until either the thread exits, or # of presets is >32, before returning.
// also make sure you enter the CS whenever you check on it!
// (thread will update preset list every so often, with the newest presets scanned in...)
while (g_bThreadAlive)
{
Sleep(30);
EnterCriticalSection(&g_cs);
int nPresets = g_plugin.m_nPresets;
LeaveCriticalSection(&g_cs);
if (nPresets >= 30)
break;
}
if (g_bThreadAlive)
{
// the load still takes a while even at THREAD_PRIORITY_ABOVE_NORMAL,
// because it is waiting on the HDD so much...
// but the OS is smart, and the CPU stays nice and zippy in other threads =)
SetThreadPriority(g_hThread,THREAD_PRIORITY_ABOVE_NORMAL); //THREAD_PRIORITY_IDLE, THREAD_PRIORITY_LOWEST, THREAD_PRIORITY_NORMAL, THREAD_PRIORITY_HIGHEST,
}
}
return;
}
void CPlugin::MergeSortPresets(int left, int right)
{
// note: left..right range is inclusive
int nItems = right-left+1;
if (nItems > 2)
{
// recurse to sort 2 halves (but don't actually recurse on a half if it only has 1 element)
int mid = (left+right)/2;
/*if (mid != left) */ MergeSortPresets(left, mid);
/*if (mid+1 != right)*/ MergeSortPresets(mid+1, right);
// then merge results
int a = left;
int b = mid + 1;
while (a <= mid && b <= right)
{
bool bSwap;
// merge the sorted arrays; give preference to strings that start with a '*' character
int nSpecial = 0;
if (m_presets[a].szFilename.c_str()[0] == '*') nSpecial++;
if (m_presets[b].szFilename.c_str()[0] == '*') nSpecial++;
if (nSpecial == 1)
{
bSwap = (m_presets[b].szFilename.c_str()[0] == '*');
}
else
{
bSwap = (mystrcmpiW(m_presets[a].szFilename.c_str(), m_presets[b].szFilename.c_str()) > 0);
}
if (bSwap)
{
PresetInfo temp = m_presets[b];
for (int k=b; k>a; k--)
m_presets[k] = m_presets[k-1];
m_presets[a] = temp;
mid++;
b++;
}
a++;
}
}
else if (nItems == 2)
{
// sort 2 items; give preference to 'special' strings that start with a '*' character
int nSpecial = 0;
if (m_presets[left].szFilename.c_str()[0] == '*') nSpecial++;
if (m_presets[right].szFilename.c_str()[0] == '*') nSpecial++;
if (nSpecial == 1)
{
if (m_presets[right].szFilename.c_str()[0] == '*')
{
PresetInfo temp = m_presets[left];
m_presets[left] = m_presets[right];
m_presets[right] = temp;
}
}
else if (mystrcmpiW(m_presets[left].szFilename.c_str(), m_presets[right].szFilename.c_str()) > 0)
{
PresetInfo temp = m_presets[left];
m_presets[left] = m_presets[right];
m_presets[right] = temp;
}
}
}
void CPlugin::WaitString_NukeSelection()
{
if (m_waitstring.bActive &&
m_waitstring.nSelAnchorPos != -1)
{
// nuke selection. note: start & end are INCLUSIVE.
int start = (m_waitstring.nCursorPos < m_waitstring.nSelAnchorPos) ? m_waitstring.nCursorPos : m_waitstring.nSelAnchorPos;
int end = (m_waitstring.nCursorPos > m_waitstring.nSelAnchorPos) ? m_waitstring.nCursorPos - 1 : m_waitstring.nSelAnchorPos - 1;
int len = (m_waitstring.bDisplayAsCode ? lstrlenA((char*)m_waitstring.szText) : lstrlenW(m_waitstring.szText));
int how_far_to_shift = end - start + 1;
int num_chars_to_shift = len - end; // includes NULL char
if (m_waitstring.bDisplayAsCode)
{
char* ptr = (char*)m_waitstring.szText;
for (int i=0; i<num_chars_to_shift; i++)
*(ptr + start + i) = *(ptr + start + i + how_far_to_shift);
}
else
{
for (int i=0; i<num_chars_to_shift; i++)
m_waitstring.szText[start + i] = m_waitstring.szText[start + i + how_far_to_shift];
}
// clear selection
m_waitstring.nCursorPos = start;
m_waitstring.nSelAnchorPos = -1;
}
}
void CPlugin::WaitString_Cut()
{
if (m_waitstring.bActive &&
m_waitstring.nSelAnchorPos != -1)
{
WaitString_Copy();
WaitString_NukeSelection();
}
}
void CPlugin::WaitString_Copy()
{
if (m_waitstring.bActive &&
m_waitstring.nSelAnchorPos != -1)
{
// note: start & end are INCLUSIVE.
int start = (m_waitstring.nCursorPos < m_waitstring.nSelAnchorPos) ? m_waitstring.nCursorPos : m_waitstring.nSelAnchorPos;
int end = (m_waitstring.nCursorPos > m_waitstring.nSelAnchorPos) ? m_waitstring.nCursorPos - 1 : m_waitstring.nSelAnchorPos - 1;
int chars_to_copy = end - start + 1;
if (m_waitstring.bDisplayAsCode)
{
char* ptr = (char*)m_waitstring.szText;
for (int i=0; i<chars_to_copy; i++)
m_waitstring.szClipboard[i] = *(ptr + start + i);
m_waitstring.szClipboard[chars_to_copy] = 0;
char tmp[64000];
ConvertLFCToCRsA(m_waitstring.szClipboard, tmp);
copyStringToClipboardA(tmp);
}
else
{
for (int i=0; i<chars_to_copy; i++)
m_waitstring.szClipboardW[i] = m_waitstring.szText[start + i];
m_waitstring.szClipboardW[chars_to_copy] = 0;
wchar_t tmp[64000];
ConvertLFCToCRsW(m_waitstring.szClipboardW, tmp);
copyStringToClipboardW(tmp);
}
}
}
void CPlugin::WaitString_Paste()
{
// NOTE: if there is a selection, it is wiped out, and replaced with the clipboard contents.
if (m_waitstring.bActive)
{
WaitString_NukeSelection();
if (m_waitstring.bDisplayAsCode)
{
char tmp[64000];
lstrcpyA(tmp, getStringFromClipboardA());
ConvertCRsToLFCA(tmp, m_waitstring.szClipboard);
}
else
{
wchar_t tmp[64000];
lstrcpyW(tmp, getStringFromClipboardW());
ConvertCRsToLFCW(tmp, m_waitstring.szClipboardW);
}
int len;
int chars_to_insert;
if (m_waitstring.bDisplayAsCode)
{
len = lstrlenA((char*)m_waitstring.szText);
chars_to_insert = lstrlenA(m_waitstring.szClipboard);
}
else
{
len = lstrlenW(m_waitstring.szText);
chars_to_insert = lstrlenW(m_waitstring.szClipboardW);
}
if (len + chars_to_insert + 1 >= m_waitstring.nMaxLen)
{
chars_to_insert = m_waitstring.nMaxLen - len - 1;
// inform user
AddError(WASABI_API_LNGSTRINGW(IDS_STRING_TOO_LONG), 2.5f, ERR_MISC, true);
}
else
{
//m_fShowUserMessageUntilThisTime = GetTime(); // if there was an error message already, clear it
}
int i;
if (m_waitstring.bDisplayAsCode)
{
char* ptr = (char*)m_waitstring.szText;
for (i=len; i >= m_waitstring.nCursorPos; i--)
*(ptr + i + chars_to_insert) = *(ptr + i);
for (i=0; i < chars_to_insert; i++)
*(ptr + i + m_waitstring.nCursorPos) = m_waitstring.szClipboard[i];
}
else
{
for (i=len; i >= m_waitstring.nCursorPos; i--)
m_waitstring.szText[i + chars_to_insert] = m_waitstring.szText[i];
for (i=0; i < chars_to_insert; i++)
m_waitstring.szText[i + m_waitstring.nCursorPos] = m_waitstring.szClipboardW[i];
}
m_waitstring.nCursorPos += chars_to_insert;
}
}
void CPlugin::WaitString_SeekLeftWord()
{
// move to beginning of prior word
if (m_waitstring.bDisplayAsCode)
{
char* ptr = (char*)m_waitstring.szText;
while (m_waitstring.nCursorPos > 0 &&
!IsAlphanumericChar(*(ptr + m_waitstring.nCursorPos-1)))
m_waitstring.nCursorPos--;
while (m_waitstring.nCursorPos > 0 &&
IsAlphanumericChar(*(ptr + m_waitstring.nCursorPos-1)))
m_waitstring.nCursorPos--;
}
else
{
while (m_waitstring.nCursorPos > 0 &&
!IsAlphanumericChar(m_waitstring.szText[m_waitstring.nCursorPos-1]))
m_waitstring.nCursorPos--;
while (m_waitstring.nCursorPos > 0 &&
IsAlphanumericChar(m_waitstring.szText[m_waitstring.nCursorPos-1]))
m_waitstring.nCursorPos--;
}
}
void CPlugin::WaitString_SeekRightWord()
{
// move to beginning of next word
//testing lotsa stuff
if (m_waitstring.bDisplayAsCode)
{
int len = lstrlenA((char*)m_waitstring.szText);
char* ptr = (char*)m_waitstring.szText;
while (m_waitstring.nCursorPos < len &&
IsAlphanumericChar(*(ptr + m_waitstring.nCursorPos)))
m_waitstring.nCursorPos++;
while (m_waitstring.nCursorPos < len &&
!IsAlphanumericChar(*(ptr + m_waitstring.nCursorPos)))
m_waitstring.nCursorPos++;
}
else
{
int len = lstrlenW(m_waitstring.szText);
while (m_waitstring.nCursorPos < len &&
IsAlphanumericChar(m_waitstring.szText[m_waitstring.nCursorPos]))
m_waitstring.nCursorPos++;
while (m_waitstring.nCursorPos < len &&
!IsAlphanumericChar(m_waitstring.szText[m_waitstring.nCursorPos]))
m_waitstring.nCursorPos++;
}
}
int CPlugin::WaitString_GetCursorColumn()
{
if (m_waitstring.bDisplayAsCode)
{
int column = 0;
char* ptr = (char*)m_waitstring.szText;
while (m_waitstring.nCursorPos - column - 1 >= 0 &&
*(ptr + m_waitstring.nCursorPos - column - 1) != LINEFEED_CONTROL_CHAR)
column++;
return column;
}
else
{
return m_waitstring.nCursorPos;
}
}
int CPlugin::WaitString_GetLineLength()
{
int line_start = m_waitstring.nCursorPos - WaitString_GetCursorColumn();
int line_length = 0;
if (m_waitstring.bDisplayAsCode)
{
char* ptr = (char*)m_waitstring.szText;
while (*(ptr + line_start + line_length) != 0 &&
*(ptr + line_start + line_length) != LINEFEED_CONTROL_CHAR)
line_length++;
}
else
{
while (m_waitstring.szText[line_start + line_length] != 0 &&
m_waitstring.szText[line_start + line_length] != LINEFEED_CONTROL_CHAR)
line_length++;
}
return line_length;
}
void CPlugin::WaitString_SeekUpOneLine()
{
int column = g_plugin.WaitString_GetCursorColumn();
if (column != m_waitstring.nCursorPos)
{
// seek to very end of previous line (cursor will be at the semicolon)
m_waitstring.nCursorPos -= column + 1;
int new_column = g_plugin.WaitString_GetCursorColumn();
if (new_column > column)
m_waitstring.nCursorPos -= (new_column - column);
}
}
void CPlugin::WaitString_SeekDownOneLine()
{
int column = g_plugin.WaitString_GetCursorColumn();
int newpos = m_waitstring.nCursorPos;
char* ptr = (char*)m_waitstring.szText;
while (*(ptr + newpos) != 0 && *(ptr + newpos) != LINEFEED_CONTROL_CHAR)
newpos++;
if (*(ptr + newpos) != 0)
{
m_waitstring.nCursorPos = newpos + 1;
while ( column > 0 &&
*(ptr + m_waitstring.nCursorPos) != LINEFEED_CONTROL_CHAR &&
*(ptr + m_waitstring.nCursorPos) != 0)
{
m_waitstring.nCursorPos++;
column--;
}
}
}
void CPlugin::SavePresetAs(wchar_t *szNewFile)
{
// overwrites the file if it was already there,
// so you should check if the file exists first & prompt user to overwrite,
// before calling this function
if (!m_pState->Export(szNewFile))
{
// error
AddError(WASABI_API_LNGSTRINGW(IDS_ERROR_UNABLE_TO_SAVE_THE_FILE), 6.0f, ERR_PRESET, true);
}
else
{
// pop up confirmation
AddError(WASABI_API_LNGSTRINGW(IDS_SAVE_SUCCESSFUL), 3.0f, ERR_NOTIFY, false);
// update m_pState->m_szDesc with the new name
lstrcpyW(m_pState->m_szDesc, m_waitstring.szText);
// refresh file listing
UpdatePresetList(false,true);
}
}
void CPlugin::DeletePresetFile(wchar_t *szDelFile)
{
// NOTE: this function additionally assumes that m_nPresetListCurPos indicates
// the slot that the to-be-deleted preset occupies!
// delete file
if (!DeleteFileW(szDelFile))
{
// error
AddError(WASABI_API_LNGSTRINGW(IDS_ERROR_UNABLE_TO_DELETE_THE_FILE), 6.0f, ERR_MISC, true);
}
else
{
// pop up confirmation
wchar_t buf[1024];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_PRESET_X_DELETED), m_presets[m_nPresetListCurPos].szFilename.c_str());
AddError(buf, 3.0f, ERR_NOTIFY, false);
// refresh file listing & re-select the next file after the one deleted
int newPos = m_nPresetListCurPos;
UpdatePresetList(false,true);
m_nPresetListCurPos = max(0, min(m_nPresets-1, newPos));
}
}
void CPlugin::RenamePresetFile(wchar_t *szOldFile, wchar_t *szNewFile)
{
// NOTE: this function additionally assumes that m_nPresetListCurPos indicates
// the slot that the to-be-renamed preset occupies!
if (GetFileAttributesW(szNewFile) != -1) // check if file already exists
{
// error
AddError(WASABI_API_LNGSTRINGW(IDS_ERROR_A_FILE_ALREADY_EXISTS_WITH_THAT_FILENAME), 6.0f, ERR_PRESET, true);
// (user remains in UI_LOAD_RENAME mode to try another filename)
}
else
{
// rename
if (!MoveFileW(szOldFile, szNewFile))
{
// error
AddError(WASABI_API_LNGSTRINGW(IDS_ERROR_UNABLE_TO_RENAME_FILE), 6.0f, ERR_MISC, true);
}
else
{
// pop up confirmation
AddError(WASABI_API_LNGSTRINGW(IDS_RENAME_SUCCESSFUL), 3.0f, ERR_NOTIFY, false);
// if this preset was the active one, update m_pState->m_szDesc with the new name
wchar_t buf[512];
swprintf(buf, L"%s.milk", m_pState->m_szDesc);
if (wcscmp(m_presets[m_nPresetListCurPos].szFilename.c_str(), buf) == 0)
{
lstrcpyW(m_pState->m_szDesc, m_waitstring.szText);
}
// refresh file listing & do a trick to make it re-select the renamed file
wchar_t buf2[512];
lstrcpyW(buf2, m_waitstring.szText);
lstrcatW(buf2, L".milk");
m_presets[m_nPresetListCurPos].szFilename = buf2;
UpdatePresetList(false,true,false);
// jump to (highlight) the new file:
m_nPresetListCurPos = 0;
wchar_t* p = wcsrchr(szNewFile, L'\\');
if (p)
{
p++;
for (int i=m_nDirs; i<m_nPresets; i++)
{
if (wcscmp(p, m_presets[i].szFilename.c_str())==0) {
m_nPresetListCurPos = i;
break;
}
}
}
}
// exit waitstring mode (return to load menu)
m_UI_mode = UI_LOAD;
m_waitstring.bActive = false;
}
}
/*
void CPlugin::UpdatePresetRatings()
{
if (!m_bEnableRating)
return;
if (m_nRatingReadProgress==-1 || m_nRatingReadProgress==m_nPresets)
return;
int k;
if (m_nRatingReadProgress==0 && m_nDirs>0)
{
for (k=0; k<m_nDirs; k++)
{
m_presets[m_nRatingReadProgress].fRatingCum = 0.0f;
m_nRatingReadProgress++;
}
if (!m_bInstaScan)
return;
}
int presets_per_frame = m_bInstaScan ? 4096 : 1;
int k1 = m_nRatingReadProgress;
int k2 = min(m_nRatingReadProgress + presets_per_frame, m_nPresets);
for (k=k1; k<k2; k++)
{
char szFullPath[512];
sprintf(szFullPath, "%s%s", m_szPresetDir, m_presets[k].szFilename.c_str());
float f = GetPrivateProfileFloat("preset00", "fRating", 3.0f, szFullPath);
if (f < 0) f = 0;
if (f > 5) f = 5;
if (k==0)
m_presets[k].fRatingCum = f;
else
m_presets[k].fRatingCum = m_presets[k-1].fRatingCum + f;
m_nRatingReadProgress++;
}
}
*/
void CPlugin::SetCurrentPresetRating(float fNewRating)
{
if (!m_bEnableRating)
return;
if (fNewRating < 0) fNewRating = 0;
if (fNewRating > 5) fNewRating = 5;
float change = (fNewRating - m_pState->m_fRating);
// update the file on disk:
//char szPresetFileNoPath[512];
//char szPresetFileWithPath[512];
//sprintf(szPresetFileNoPath, "%s.milk", m_pState->m_szDesc);
//sprintf(szPresetFileWithPath, "%s%s.milk", GetPresetDir(), m_pState->m_szDesc);
WritePrivateProfileFloatW(fNewRating, L"fRating", m_szCurrentPresetFile, L"preset00");
// update the copy of the preset in memory
m_pState->m_fRating = fNewRating;
// update the cumulative internal listing:
m_presets[m_nCurrentPreset].fRatingThis += change;
if (m_nCurrentPreset != -1)// && m_nRatingReadProgress >= m_nCurrentPreset) // (can be -1 if dir. changed but no new preset was loaded yet)
for (int i=m_nCurrentPreset; i<m_nPresets; i++)
m_presets[i].fRatingCum += change;
/* keep in view:
-test switching dirs w/o loading a preset, and trying to change the rating
->m_nCurrentPreset is out of range!
-soln: when adjusting rating:
1. file to modify is m_szCurrentPresetFile
2. only update CDF if m_nCurrentPreset is not -1
-> set m_nCurrentPreset to -1 whenever dir. changes
-> set m_szCurrentPresetFile whenever you load a preset
*/
// show a message
if (!m_bShowRating)
{
// see also: DrawText() in milkdropfs.cpp
m_fShowRatingUntilThisTime = GetTime() + 2.0f;
}
}
void CPlugin::ReadCustomMessages()
{
int n;
// First, clear all old data
for (n=0; n<MAX_CUSTOM_MESSAGE_FONTS; n++)
{
wcscpy(m_CustomMessageFont[n].szFace, L"arial");
m_CustomMessageFont[n].bBold = false;
m_CustomMessageFont[n].bItal = false;
m_CustomMessageFont[n].nColorR = 255;
m_CustomMessageFont[n].nColorG = 255;
m_CustomMessageFont[n].nColorB = 255;
}
for (n=0; n<MAX_CUSTOM_MESSAGES; n++)
{
m_CustomMessage[n].szText[0] = 0;
m_CustomMessage[n].nFont = 0;
m_CustomMessage[n].fSize = 50.0f; // [0..100] note that size is not absolute, but relative to the size of the window
m_CustomMessage[n].x = 0.5f;
m_CustomMessage[n].y = 0.5f;
m_CustomMessage[n].randx = 0;
m_CustomMessage[n].randy = 0;
m_CustomMessage[n].growth = 1.0f;
m_CustomMessage[n].fTime = 1.5f;
m_CustomMessage[n].fFade = 0.2f;
m_CustomMessage[n].bOverrideBold = false;
m_CustomMessage[n].bOverrideItal = false;
m_CustomMessage[n].bOverrideFace = false;
m_CustomMessage[n].bOverrideColorR = false;
m_CustomMessage[n].bOverrideColorG = false;
m_CustomMessage[n].bOverrideColorB = false;
m_CustomMessage[n].bBold = false;
m_CustomMessage[n].bItal = false;
wcscpy(m_CustomMessage[n].szFace, L"arial");
m_CustomMessage[n].nColorR = 255;
m_CustomMessage[n].nColorG = 255;
m_CustomMessage[n].nColorB = 255;
m_CustomMessage[n].nRandR = 0;
m_CustomMessage[n].nRandG = 0;
m_CustomMessage[n].nRandB = 0;
}
// Then read in the new file
for (n=0; n<MAX_CUSTOM_MESSAGE_FONTS; n++)
{
wchar_t szSectionName[32];
swprintf(szSectionName, L"font%02d", n);
// get face, bold, italic, x, y for this custom message FONT
GetPrivateProfileStringW(szSectionName,L"face",L"arial",m_CustomMessageFont[n].szFace,sizeof(m_CustomMessageFont[n].szFace), m_szMsgIniFile);
m_CustomMessageFont[n].bBold = GetPrivateProfileBoolW(szSectionName,L"bold",m_CustomMessageFont[n].bBold, m_szMsgIniFile);
m_CustomMessageFont[n].bItal = GetPrivateProfileBoolW(szSectionName,L"ital",m_CustomMessageFont[n].bItal, m_szMsgIniFile);
m_CustomMessageFont[n].nColorR = GetPrivateProfileIntW (szSectionName,L"r" ,m_CustomMessageFont[n].nColorR, m_szMsgIniFile);
m_CustomMessageFont[n].nColorG = GetPrivateProfileIntW (szSectionName,L"g" ,m_CustomMessageFont[n].nColorG, m_szMsgIniFile);
m_CustomMessageFont[n].nColorB = GetPrivateProfileIntW (szSectionName,L"b" ,m_CustomMessageFont[n].nColorB, m_szMsgIniFile);
}
for (n=0; n<MAX_CUSTOM_MESSAGES; n++)
{
wchar_t szSectionName[64];
swprintf(szSectionName, L"message%02d", n);
// get fontID, size, text, etc. for this custom message:
GetPrivateProfileStringW(szSectionName,L"text",L"",m_CustomMessage[n].szText,sizeof(m_CustomMessage[n].szText), m_szMsgIniFile);
if (m_CustomMessage[n].szText[0])
{
m_CustomMessage[n].nFont = GetPrivateProfileIntW (szSectionName,L"font" ,m_CustomMessage[n].nFont, m_szMsgIniFile);
m_CustomMessage[n].fSize = GetPrivateProfileFloatW(szSectionName,L"size" ,m_CustomMessage[n].fSize, m_szMsgIniFile);
m_CustomMessage[n].x = GetPrivateProfileFloatW(szSectionName,L"x" ,m_CustomMessage[n].x, m_szMsgIniFile);
m_CustomMessage[n].y = GetPrivateProfileFloatW(szSectionName,L"y" ,m_CustomMessage[n].y, m_szMsgIniFile);
m_CustomMessage[n].randx = GetPrivateProfileFloatW(szSectionName,L"randx" ,m_CustomMessage[n].randx, m_szMsgIniFile);
m_CustomMessage[n].randy = GetPrivateProfileFloatW(szSectionName,L"randy" ,m_CustomMessage[n].randy, m_szMsgIniFile);
m_CustomMessage[n].growth = GetPrivateProfileFloatW(szSectionName,L"growth",m_CustomMessage[n].growth, m_szMsgIniFile);
m_CustomMessage[n].fTime = GetPrivateProfileFloatW(szSectionName,L"time" ,m_CustomMessage[n].fTime, m_szMsgIniFile);
m_CustomMessage[n].fFade = GetPrivateProfileFloatW(szSectionName,L"fade" ,m_CustomMessage[n].fFade, m_szMsgIniFile);
m_CustomMessage[n].nColorR = GetPrivateProfileIntW (szSectionName,L"r" ,m_CustomMessage[n].nColorR, m_szMsgIniFile);
m_CustomMessage[n].nColorG = GetPrivateProfileIntW (szSectionName,L"g" ,m_CustomMessage[n].nColorG, m_szMsgIniFile);
m_CustomMessage[n].nColorB = GetPrivateProfileIntW (szSectionName,L"b" ,m_CustomMessage[n].nColorB, m_szMsgIniFile);
m_CustomMessage[n].nRandR = GetPrivateProfileIntW (szSectionName,L"randr" ,m_CustomMessage[n].nRandR, m_szMsgIniFile);
m_CustomMessage[n].nRandG = GetPrivateProfileIntW (szSectionName,L"randg" ,m_CustomMessage[n].nRandG, m_szMsgIniFile);
m_CustomMessage[n].nRandB = GetPrivateProfileIntW (szSectionName,L"randb" ,m_CustomMessage[n].nRandB, m_szMsgIniFile);
// overrides: r,g,b,face,bold,ital
GetPrivateProfileStringW(szSectionName,L"face",L"",m_CustomMessage[n].szFace,sizeof(m_CustomMessage[n].szFace), m_szMsgIniFile);
m_CustomMessage[n].bBold = GetPrivateProfileIntW (szSectionName, L"bold", -1, m_szMsgIniFile);
m_CustomMessage[n].bItal = GetPrivateProfileIntW (szSectionName, L"ital", -1, m_szMsgIniFile);
m_CustomMessage[n].nColorR = GetPrivateProfileIntW (szSectionName, L"r" , -1, m_szMsgIniFile);
m_CustomMessage[n].nColorG = GetPrivateProfileIntW (szSectionName, L"g" , -1, m_szMsgIniFile);
m_CustomMessage[n].nColorB = GetPrivateProfileIntW (szSectionName, L"b" , -1, m_szMsgIniFile);
m_CustomMessage[n].bOverrideFace = (m_CustomMessage[n].szFace[0] != 0);
m_CustomMessage[n].bOverrideBold = (m_CustomMessage[n].bBold != -1);
m_CustomMessage[n].bOverrideItal = (m_CustomMessage[n].bItal != -1);
m_CustomMessage[n].bOverrideColorR = (m_CustomMessage[n].nColorR != -1);
m_CustomMessage[n].bOverrideColorG = (m_CustomMessage[n].nColorG != -1);
m_CustomMessage[n].bOverrideColorB = (m_CustomMessage[n].nColorB != -1);
}
}
}
void CPlugin::LaunchCustomMessage(int nMsgNum)
{
if (nMsgNum > 99)
nMsgNum = 99;
if (nMsgNum < 0)
{
int count=0;
// choose randomly
for (nMsgNum=0; nMsgNum<100; nMsgNum++)
if (m_CustomMessage[nMsgNum].szText[0])
count++;
int sel = (warand()%count)+1;
count = 0;
for (nMsgNum=0; nMsgNum<100; nMsgNum++)
{
if (m_CustomMessage[nMsgNum].szText[0])
count++;
if (count==sel)
break;
}
}
if (nMsgNum < 0 ||
nMsgNum >= MAX_CUSTOM_MESSAGES ||
m_CustomMessage[nMsgNum].szText[0]==0)
{
return;
}
int fontID = m_CustomMessage[nMsgNum].nFont;
m_supertext.bRedrawSuperText = true;
m_supertext.bIsSongTitle = false;
lstrcpyW(m_supertext.szTextW, m_CustomMessage[nMsgNum].szText);
// regular properties:
m_supertext.fFontSize = m_CustomMessage[nMsgNum].fSize;
m_supertext.fX = m_CustomMessage[nMsgNum].x + m_CustomMessage[nMsgNum].randx * ((warand()%1037)/1037.0f*2.0f - 1.0f);
m_supertext.fY = m_CustomMessage[nMsgNum].y + m_CustomMessage[nMsgNum].randy * ((warand()%1037)/1037.0f*2.0f - 1.0f);
m_supertext.fGrowth = m_CustomMessage[nMsgNum].growth;
m_supertext.fDuration = m_CustomMessage[nMsgNum].fTime;
m_supertext.fFadeTime = m_CustomMessage[nMsgNum].fFade;
// overrideables:
if (m_CustomMessage[nMsgNum].bOverrideFace)
lstrcpyW(m_supertext.nFontFace, m_CustomMessage[nMsgNum].szFace);
else
lstrcpyW(m_supertext.nFontFace, m_CustomMessageFont[fontID].szFace);
m_supertext.bItal = (m_CustomMessage[nMsgNum].bOverrideItal) ? (m_CustomMessage[nMsgNum].bItal != 0) : (m_CustomMessageFont[fontID].bItal != 0);
m_supertext.bBold = (m_CustomMessage[nMsgNum].bOverrideBold) ? (m_CustomMessage[nMsgNum].bBold != 0) : (m_CustomMessageFont[fontID].bBold != 0);
m_supertext.nColorR = (m_CustomMessage[nMsgNum].bOverrideColorR) ? m_CustomMessage[nMsgNum].nColorR : m_CustomMessageFont[fontID].nColorR;
m_supertext.nColorG = (m_CustomMessage[nMsgNum].bOverrideColorG) ? m_CustomMessage[nMsgNum].nColorG : m_CustomMessageFont[fontID].nColorG;
m_supertext.nColorB = (m_CustomMessage[nMsgNum].bOverrideColorB) ? m_CustomMessage[nMsgNum].nColorB : m_CustomMessageFont[fontID].nColorB;
// randomize color
m_supertext.nColorR += (int)(m_CustomMessage[nMsgNum].nRandR * ((warand()%1037)/1037.0f*2.0f - 1.0f));
m_supertext.nColorG += (int)(m_CustomMessage[nMsgNum].nRandG * ((warand()%1037)/1037.0f*2.0f - 1.0f));
m_supertext.nColorB += (int)(m_CustomMessage[nMsgNum].nRandB * ((warand()%1037)/1037.0f*2.0f - 1.0f));
if (m_supertext.nColorR < 0) m_supertext.nColorR = 0;
if (m_supertext.nColorG < 0) m_supertext.nColorG = 0;
if (m_supertext.nColorB < 0) m_supertext.nColorB = 0;
if (m_supertext.nColorR > 255) m_supertext.nColorR = 255;
if (m_supertext.nColorG > 255) m_supertext.nColorG = 255;
if (m_supertext.nColorB > 255) m_supertext.nColorB = 255;
// fix &'s for display:
/*
{
int pos = 0;
int len = lstrlen(m_supertext.szText);
while (m_supertext.szText[pos] && pos<255)
{
if (m_supertext.szText[pos] == '&')
{
for (int x=len; x>=pos; x--)
m_supertext.szText[x+1] = m_supertext.szText[x];
len++;
pos++;
}
pos++;
}
}*/
m_supertext.fStartTime = GetTime();
}
void CPlugin::LaunchSongTitleAnim()
{
m_supertext.bRedrawSuperText = true;
m_supertext.bIsSongTitle = true;
lstrcpyW(m_supertext.szTextW, m_szSongTitle);
//lstrcpy(m_supertext.szText, " ");
lstrcpyW(m_supertext.nFontFace, m_fontinfo[SONGTITLE_FONT].szFace);
m_supertext.fFontSize = (float)m_fontinfo[SONGTITLE_FONT].nSize;
m_supertext.bBold = m_fontinfo[SONGTITLE_FONT].bBold;
m_supertext.bItal = m_fontinfo[SONGTITLE_FONT].bItalic;
m_supertext.fX = 0.5f;
m_supertext.fY = 0.5f;
m_supertext.fGrowth = 1.0f;
m_supertext.fDuration = m_fSongTitleAnimDuration;
m_supertext.nColorR = 255;
m_supertext.nColorG = 255;
m_supertext.nColorB = 255;
m_supertext.fStartTime = GetTime();
}
bool CPlugin::LaunchSprite(int nSpriteNum, int nSlot)
{
char initcode[8192], code[8192], sectionA[64];
char szTemp[8192];
wchar_t img[512], section[64];
initcode[0] = 0;
code[0] = 0;
img[0] = 0;
swprintf(section, L"img%02d", nSpriteNum);
sprintf(sectionA, "img%02d", nSpriteNum);
// 1. read in image filename
GetPrivateProfileStringW(section, L"img", L"", img, sizeof(img)-1, m_szImgIniFile);
if (img[0] == 0)
{
wchar_t buf[1024];
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_SPRITE_X_ERROR_COULD_NOT_FIND_IMG_OR_NOT_DEFINED), nSpriteNum);
AddError(buf, 7.0f, ERR_MISC, false);
return false;
}
if (img[1] != L':')// || img[2] != '\\')
{
// it's not in the form "x:\blah\billy.jpg" so prepend plugin dir path.
wchar_t temp[512];
wcscpy(temp, img);
swprintf(img, L"%s%s", m_szMilkdrop2Path, temp);
}
// 2. get color key
//unsigned int ck_lo = (unsigned int)GetPrivateProfileInt(section, "colorkey_lo", 0x00000000, m_szImgIniFile);
//unsigned int ck_hi = (unsigned int)GetPrivateProfileInt(section, "colorkey_hi", 0x00202020, m_szImgIniFile);
// FIRST try 'colorkey_lo' (for backwards compatibility) and then try 'colorkey'
unsigned int ck = (unsigned int)GetPrivateProfileIntW(section, L"colorkey_lo", 0x00000000, m_szImgIniFile/*GetConfigIniFile()*/);
ck = (unsigned int)GetPrivateProfileIntW(section, L"colorkey", ck, m_szImgIniFile/*GetConfigIniFile()*/);
// 3. read in init code & per-frame code
for (int n=0; n<2; n++)
{
char *pStr = (n==0) ? initcode : code;
char szLineName[32];
int len;
int line = 1;
int char_pos = 0;
bool bDone = false;
while (!bDone)
{
if (n==0)
sprintf(szLineName, "init_%d", line);
else
sprintf(szLineName, "code_%d", line);
GetPrivateProfileString(sectionA, szLineName, "~!@#$", szTemp, 8192, AutoCharFn(m_szImgIniFile)); // fixme
len = lstrlen(szTemp);
if ((strcmp(szTemp, "~!@#$")==0) || // if the key was missing,
(len >= 8191-char_pos-1)) // or if we're out of space
{
bDone = true;
}
else
{
sprintf(&pStr[char_pos], "%s%c", szTemp, LINEFEED_CONTROL_CHAR);
}
char_pos += len + 1;
line++;
}
pStr[char_pos++] = 0; // null-terminate
}
if (nSlot == -1)
{
// find first empty slot; if none, chuck the oldest sprite & take its slot.
int oldest_index = 0;
int oldest_frame = m_texmgr.m_tex[0].nStartFrame;
for (int x=0; x<NUM_TEX; x++)
{
if (!m_texmgr.m_tex[x].pSurface)
{
nSlot = x;
break;
}
else if (m_texmgr.m_tex[x].nStartFrame < oldest_frame)
{
oldest_index = x;
oldest_frame = m_texmgr.m_tex[x].nStartFrame;
}
}
if (nSlot == -1)
{
nSlot = oldest_index;
m_texmgr.KillTex(nSlot);
}
}
int ret = m_texmgr.LoadTex(img, nSlot, initcode, code, GetTime(), GetFrame(), ck);
m_texmgr.m_tex[nSlot].nUserData = nSpriteNum;
wchar_t buf[1024];
switch(ret & TEXMGR_ERROR_MASK)
{
case TEXMGR_ERR_SUCCESS:
switch(ret & TEXMGR_WARNING_MASK)
{
case TEXMGR_WARN_ERROR_IN_INIT_CODE:
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_SPRITE_X_WARNING_ERROR_IN_INIT_CODE), nSpriteNum);
AddError(buf, 6.0f, ERR_MISC, true);
break;
case TEXMGR_WARN_ERROR_IN_REG_CODE:
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_SPRITE_X_WARNING_ERROR_IN_PER_FRAME_CODE), nSpriteNum);
AddError(buf, 6.0f, ERR_MISC, true);
break;
default:
// success; no errors OR warnings.
break;
}
break;
case TEXMGR_ERR_BAD_INDEX:
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_SPRITE_X_ERROR_BAD_SLOT_INDEX), nSpriteNum);
AddError(buf, 6.0f, ERR_MISC, true);
break;
/*
case TEXMGR_ERR_OPENING: sprintf(m_szUserMessage, "sprite #%d error: unable to open imagefile", nSpriteNum); break;
case TEXMGR_ERR_FORMAT: sprintf(m_szUserMessage, "sprite #%d error: file is corrupt or non-jpeg image", nSpriteNum); break;
case TEXMGR_ERR_IMAGE_NOT_24_BIT: sprintf(m_szUserMessage, "sprite #%d error: image does not have 3 color channels", nSpriteNum); break;
case TEXMGR_ERR_IMAGE_TOO_LARGE: sprintf(m_szUserMessage, "sprite #%d error: image is too large", nSpriteNum); break;
case TEXMGR_ERR_CREATESURFACE_FAILED: sprintf(m_szUserMessage, "sprite #%d error: createsurface() failed", nSpriteNum); break;
case TEXMGR_ERR_LOCKSURFACE_FAILED: sprintf(m_szUserMessage, "sprite #%d error: lock() failed", nSpriteNum); break;
case TEXMGR_ERR_CORRUPT_JPEG: sprintf(m_szUserMessage, "sprite #%d error: jpeg is corrupt", nSpriteNum); break;
*/
case TEXMGR_ERR_BADFILE:
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_SPRITE_X_ERROR_IMAGE_FILE_MISSING_OR_CORRUPT), nSpriteNum);
AddError(buf, 6.0f, ERR_MISC, true);
break;
case TEXMGR_ERR_OUTOFMEM:
swprintf(buf, WASABI_API_LNGSTRINGW(IDS_SPRITE_X_ERROR_OUT_OF_MEM), nSpriteNum);
AddError(buf, 6.0f, ERR_MISC, true);
break;
}
return (ret & TEXMGR_ERROR_MASK) ? false : true;
}
void CPlugin::KillSprite(int iSlot)
{
m_texmgr.KillTex(iSlot);
}
void CPlugin::DoCustomSoundAnalysis()
{
memcpy(mysound.fWave[0], m_sound.fWaveform[0], sizeof(float)*576);
memcpy(mysound.fWave[1], m_sound.fWaveform[1], sizeof(float)*576);
// do our own [UN-NORMALIZED] fft
float fWaveLeft[576];
int i = 0;
for (i=0; i<576; i++)
fWaveLeft[i] = m_sound.fWaveform[0][i];
memset(mysound.fSpecLeft, 0, sizeof(float)*MY_FFT_SAMPLES);
myfft.time_to_frequency_domain(fWaveLeft, mysound.fSpecLeft);
//for (i=0; i<MY_FFT_SAMPLES; i++) fSpecLeft[i] = sqrtf(fSpecLeft[i]*fSpecLeft[i] + fSpecTemp[i]*fSpecTemp[i]);
// sum spectrum up into 3 bands
for (i=0; i<3; i++)
{
// note: only look at bottom half of spectrum! (hence divide by 6 instead of 3)
int start = MY_FFT_SAMPLES*i/6;
int end = MY_FFT_SAMPLES*(i+1)/6;
int j;
mysound.imm[i] = 0;
for (j=start; j<end; j++)
mysound.imm[i] += mysound.fSpecLeft[j];
}
// do temporal blending to create attenuated and super-attenuated versions
for (i=0; i<3; i++)
{
float rate;
if (mysound.imm[i] > mysound.avg[i])
rate = 0.2f;
else
rate = 0.5f;
rate = AdjustRateToFPS(rate, 30.0f, GetFps());
mysound.avg[i] = mysound.avg[i]*rate + mysound.imm[i]*(1-rate);
if (GetFrame() < 50)
rate = 0.9f;
else
rate = 0.992f;
rate = AdjustRateToFPS(rate, 30.0f, GetFps());
mysound.long_avg[i] = mysound.long_avg[i]*rate + mysound.imm[i]*(1-rate);
// also get bass/mid/treble levels *relative to the past*
if (fabsf(mysound.long_avg[i]) < 0.001f)
mysound.imm_rel[i] = 1.0f;
else
mysound.imm_rel[i] = mysound.imm[i] / mysound.long_avg[i];
if (fabsf(mysound.long_avg[i]) < 0.001f)
mysound.avg_rel[i] = 1.0f;
else
mysound.avg_rel[i] = mysound.avg[i] / mysound.long_avg[i];
}
}
void CPlugin::GenWarpPShaderText(char *szShaderText, float decay, bool bWrap)
{
// find the pixel shader body and replace it with custom code.
lstrcpy(szShaderText, m_szDefaultWarpPShaderText);
char LF = LINEFEED_CONTROL_CHAR;
char *p = strrchr( szShaderText, '{' );
if (!p)
return;
p++;
p += sprintf(p, "%c", 1);
p += sprintf(p, " // sample previous frame%c", LF);
p += sprintf(p, " ret = tex2D( sampler%s_main, uv ).xyz;%c", bWrap ? L"" : L"_fc", LF);
p += sprintf(p, " %c", LF);
p += sprintf(p, " // darken (decay) over time%c", LF);
p += sprintf(p, " ret *= %.2f; //or try: ret -= 0.004;%c", decay, LF);
//p += sprintf(p, " %c", LF);
//p += sprintf(p, " ret.w = vDiffuse.w; // pass alpha along - req'd for preset blending%c", LF);
p += sprintf(p, "}%c", LF);
}
void CPlugin::GenCompPShaderText(char *szShaderText, float brightness, float ve_alpha, float ve_zoom, int ve_orient, float hue_shader, bool bBrighten, bool bDarken, bool bSolarize, bool bInvert)
{
// find the pixel shader body and replace it with custom code.
lstrcpy(szShaderText, m_szDefaultCompPShaderText);
char LF = LINEFEED_CONTROL_CHAR;
char *p = strrchr( szShaderText, '{' );
if (!p)
return;
p++;
p += sprintf(p, "%c", 1);
if (ve_alpha > 0.001f)
{
int orient_x = (ve_orient % 2) ? -1 : 1;
int orient_y = (ve_orient >= 2) ? -1 : 1;
p += sprintf(p, " float2 uv_echo = (uv - 0.5)*%.3f*float2(%d,%d) + 0.5;%c", 1.0f/ve_zoom, orient_x, orient_y, LF);
p += sprintf(p, " ret = lerp( tex2D(sampler_main, uv).xyz, %c", LF);
p += sprintf(p, " tex2D(sampler_main, uv_echo).xyz, %c", LF);
p += sprintf(p, " %.2f %c", ve_alpha, LF);
p += sprintf(p, " ); //video echo%c", LF);
p += sprintf(p, " ret *= %.2f; //gamma%c", brightness, LF);
}
else
{
p += sprintf(p, " ret = tex2D(sampler_main, uv).xyz;%c", LF);
p += sprintf(p, " ret *= %.2f; //gamma%c", brightness, LF);
}
if (hue_shader >= 1.0f)
p += sprintf(p, " ret *= hue_shader; //old hue shader effect%c", LF);
else if (hue_shader > 0.001f)
p += sprintf(p, " ret *= %.2f + %.2f*hue_shader; //old hue shader effect%c", 1-hue_shader, hue_shader, LF);
if (bBrighten)
p += sprintf(p, " ret = sqrt(ret); //brighten%c", LF);
if (bDarken)
p += sprintf(p, " ret *= ret; //darken%c", LF);
if (bSolarize)
p += sprintf(p, " ret = ret*(1-ret)*4; //solarize%c", LF);
if (bInvert)
p += sprintf(p, " ret = 1 - ret; //invert%c", LF);
//p += sprintf(p, " ret.w = vDiffuse.w; // pass alpha along - req'd for preset blending%c", LF);
p += sprintf(p, "}%c", LF);
}