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mirror of https://github.com/FWGS/xash3d-fwgs synced 2024-11-22 09:56:22 +01:00
xash3d-fwgs/ref/gl/gl_backend.c

834 lines
19 KiB
C

/*
gl_backend.c - rendering backend
Copyright (C) 2010 Uncle Mike
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
*/
#include "gl_local.h"
#include "xash3d_mathlib.h"
char r_speeds_msg[MAX_SYSPATH];
ref_speeds_t r_stats; // r_speeds counters
/*
===============
R_SpeedsMessage
===============
*/
qboolean R_SpeedsMessage( char *out, size_t size )
{
if( gEngfuncs.drawFuncs->R_SpeedsMessage != NULL )
{
if( gEngfuncs.drawFuncs->R_SpeedsMessage( out, size ))
return true;
// otherwise pass to default handler
}
if( r_speeds->value <= 0 ) return false;
if( !out || !size ) return false;
Q_strncpy( out, r_speeds_msg, size );
return true;
}
/*
==============
R_Speeds_Printf
helper to print into r_speeds message
==============
*/
static void R_Speeds_Printf( const char *msg, ... )
{
va_list argptr;
char text[2048];
va_start( argptr, msg );
Q_vsnprintf( text, sizeof( text ), msg, argptr );
va_end( argptr );
Q_strncat( r_speeds_msg, text, sizeof( r_speeds_msg ));
}
/*
==============
GL_BackendStartFrame
==============
*/
void GL_BackendStartFrame( void )
{
r_speeds_msg[0] = '\0';
}
/*
==============
GL_BackendEndFrame
==============
*/
void GL_BackendEndFrame( void )
{
mleaf_t *curleaf;
if( r_speeds->value <= 0 || !RI.drawWorld )
return;
if( !RI.viewleaf )
curleaf = WORLDMODEL->leafs;
else curleaf = RI.viewleaf;
R_Speeds_Printf( "Renderer: ^1Engine^7\n\n" );
switch( (int)r_speeds->value )
{
case 1:
Q_snprintf( r_speeds_msg, sizeof( r_speeds_msg ), "%3i wpoly, %3i apoly\n%3i epoly, %3i spoly",
r_stats.c_world_polys, r_stats.c_alias_polys, r_stats.c_studio_polys, r_stats.c_sprite_polys );
break;
case 2:
R_Speeds_Printf( "visible leafs:\n%3i leafs\ncurrent leaf %3i\n", r_stats.c_world_leafs, curleaf - WORLDMODEL->leafs );
R_Speeds_Printf( "ReciusiveWorldNode: %3lf secs\nDrawTextureChains %lf\n", r_stats.t_world_node, r_stats.t_world_draw );
break;
case 3:
Q_snprintf( r_speeds_msg, sizeof( r_speeds_msg ), "%3i alias models drawn\n%3i studio models drawn\n%3i sprites drawn",
r_stats.c_alias_models_drawn, r_stats.c_studio_models_drawn, r_stats.c_sprite_models_drawn );
break;
case 4:
Q_snprintf( r_speeds_msg, sizeof( r_speeds_msg ), "%3i static entities\n%3i normal entities\n%3i server entities",
r_numStatics, r_numEntities - r_numStatics, (int)ENGINE_GET_PARM( PARM_NUMENTITIES ));
break;
case 5:
Q_snprintf( r_speeds_msg, sizeof( r_speeds_msg ), "%3i tempents\n%3i viewbeams\n%3i particles",
r_stats.c_active_tents_count, r_stats.c_view_beams_count, r_stats.c_particle_count );
break;
}
memset( &r_stats, 0, sizeof( r_stats ));
}
/*
=================
GL_LoadTexMatrixExt
=================
*/
void GL_LoadTexMatrixExt( const float *glmatrix )
{
Assert( glmatrix != NULL );
pglMatrixMode( GL_TEXTURE );
pglLoadMatrixf( glmatrix );
glState.texIdentityMatrix[glState.activeTMU] = false;
}
/*
=================
GL_LoadMatrix
=================
*/
void GL_LoadMatrix( const matrix4x4 source )
{
GLfloat dest[16];
Matrix4x4_ToArrayFloatGL( source, dest );
pglLoadMatrixf( dest );
}
/*
=================
GL_LoadIdentityTexMatrix
=================
*/
void GL_LoadIdentityTexMatrix( void )
{
if( glState.texIdentityMatrix[glState.activeTMU] )
return;
pglMatrixMode( GL_TEXTURE );
pglLoadIdentity();
glState.texIdentityMatrix[glState.activeTMU] = true;
}
/*
=================
GL_SelectTexture
=================
*/
void GL_SelectTexture( GLint tmu )
{
if( !GL_Support( GL_ARB_MULTITEXTURE ))
return;
// don't allow negative texture units
if( tmu < 0 ) return;
if( tmu >= GL_MaxTextureUnits( ))
{
gEngfuncs.Con_Reportf( S_ERROR "%s: bad tmu state %i\n", __func__, tmu );
return;
}
if( glState.activeTMU == tmu )
return;
glState.activeTMU = tmu;
if( pglActiveTextureARB )
{
pglActiveTextureARB( tmu + GL_TEXTURE0_ARB );
if( tmu < glConfig.max_texture_coords )
pglClientActiveTextureARB( tmu + GL_TEXTURE0_ARB );
}
}
/*
==============
GL_DisableAllTexGens
==============
*/
void GL_DisableAllTexGens( void )
{
GL_TexGen( GL_S, 0 );
GL_TexGen( GL_T, 0 );
GL_TexGen( GL_R, 0 );
GL_TexGen( GL_Q, 0 );
}
/*
==============
GL_CleanUpTextureUnits
==============
*/
void GL_CleanUpTextureUnits( int last )
{
int i;
for( i = glState.activeTMU; i > (last - 1); i-- )
{
// disable upper units
if( glState.currentTextureTargets[i] != GL_NONE )
{
pglDisable( glState.currentTextureTargets[i] );
glState.currentTextureTargets[i] = GL_NONE;
glState.currentTextures[i] = -1; // unbind texture
glState.currentTexturesIndex[i] = 0;
}
GL_SetTexCoordArrayMode( GL_NONE );
GL_LoadIdentityTexMatrix();
GL_DisableAllTexGens();
GL_SelectTexture( i - 1 );
}
}
/*
==============
GL_CleanupAllTextureUnits
==============
*/
void GL_CleanupAllTextureUnits( void )
{
if( !glw_state.initialized ) return;
// force to cleanup all the units
GL_SelectTexture( GL_MaxTextureUnits() - 1 );
GL_CleanUpTextureUnits( 0 );
}
/*
=================
GL_MultiTexCoord2f
=================
*/
void GL_MultiTexCoord2f( GLenum texture, GLfloat s, GLfloat t )
{
if( !GL_Support( GL_ARB_MULTITEXTURE ))
return;
#ifndef XASH_GL_STATIC
if( pglMultiTexCoord2f != NULL )
#endif
pglMultiTexCoord2f( texture + GL_TEXTURE0_ARB, s, t );
}
/*
====================
GL_EnableTextureUnit
====================
*/
void GL_EnableTextureUnit( int tmu, qboolean enable )
{
// only enable fixed-function pipeline units
if( tmu < glConfig.max_texture_units )
{
if( enable )
{
pglEnable( glState.currentTextureTargets[tmu] );
}
else if( glState.currentTextureTargets[tmu] != GL_NONE )
{
pglDisable( glState.currentTextureTargets[tmu] );
}
}
}
/*
=================
GL_TextureTarget
=================
*/
void GL_TextureTarget( uint target )
{
if( glState.activeTMU < 0 || glState.activeTMU >= GL_MaxTextureUnits( ))
{
gEngfuncs.Con_Reportf( S_ERROR "%s: bad tmu state %i\n", __func__, glState.activeTMU );
return;
}
if( glState.currentTextureTargets[glState.activeTMU] != target )
{
GL_EnableTextureUnit( glState.activeTMU, false );
glState.currentTextureTargets[glState.activeTMU] = target;
if( target != GL_NONE )
GL_EnableTextureUnit( glState.activeTMU, true );
}
}
/*
=================
GL_TexGen
=================
*/
void GL_TexGen( GLenum coord, GLenum mode )
{
int tmu = Q_min( glConfig.max_texture_coords, glState.activeTMU );
int bit, gen;
switch( coord )
{
case GL_S:
bit = 1;
gen = GL_TEXTURE_GEN_S;
break;
case GL_T:
bit = 2;
gen = GL_TEXTURE_GEN_T;
break;
case GL_R:
bit = 4;
gen = GL_TEXTURE_GEN_R;
break;
case GL_Q:
bit = 8;
gen = GL_TEXTURE_GEN_Q;
break;
default: return;
}
if( mode )
{
if( !( glState.genSTEnabled[tmu] & bit ))
{
pglEnable( gen );
glState.genSTEnabled[tmu] |= bit;
}
pglTexGeni( coord, GL_TEXTURE_GEN_MODE, mode );
}
else
{
if( glState.genSTEnabled[tmu] & bit )
{
pglDisable( gen );
glState.genSTEnabled[tmu] &= ~bit;
}
}
}
/*
=================
GL_SetTexCoordArrayMode
=================
*/
void GL_SetTexCoordArrayMode( GLenum mode )
{
int tmu = Q_min( glConfig.max_texture_coords, glState.activeTMU );
int bit, cmode = glState.texCoordArrayMode[tmu];
if( mode == GL_TEXTURE_COORD_ARRAY )
bit = 1;
else if( mode == GL_TEXTURE_CUBE_MAP_ARB )
bit = 2;
else bit = 0;
if( cmode != bit )
{
if( cmode == 1 ) pglDisableClientState( GL_TEXTURE_COORD_ARRAY );
else if( cmode == 2 ) pglDisable( GL_TEXTURE_CUBE_MAP_ARB );
if( bit == 1 ) pglEnableClientState( GL_TEXTURE_COORD_ARRAY );
else if( bit == 2 ) pglEnable( GL_TEXTURE_CUBE_MAP_ARB );
glState.texCoordArrayMode[tmu] = bit;
}
}
/*
=================
GL_Cull
=================
*/
void GL_Cull( GLenum cull )
{
if( !cull )
{
pglDisable( GL_CULL_FACE );
glState.faceCull = 0;
return;
}
pglEnable( GL_CULL_FACE );
pglCullFace( cull );
glState.faceCull = cull;
}
void GL_SetRenderMode( int mode )
{
pglTexEnvi( GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE );
switch( mode )
{
case kRenderNormal:
default:
pglDisable( GL_BLEND );
pglDisable( GL_ALPHA_TEST );
break;
case kRenderTransColor:
case kRenderTransTexture:
pglEnable( GL_BLEND );
pglDisable( GL_ALPHA_TEST );
pglBlendFunc( GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA );
break;
case kRenderTransAlpha:
pglDisable( GL_BLEND );
pglEnable( GL_ALPHA_TEST );
break;
case kRenderGlow:
case kRenderTransAdd:
pglEnable( GL_BLEND );
pglDisable( GL_ALPHA_TEST );
pglBlendFunc( GL_SRC_ALPHA, GL_ONE );
break;
case kRenderScreenFadeModulate:
pglEnable( GL_BLEND );
pglDisable( GL_ALPHA_TEST );
pglBlendFunc( GL_ZERO, GL_SRC_COLOR );
}
}
/*
==============================================================================
SCREEN SHOTS
==============================================================================
*/
// used for 'env' and 'sky' shots
typedef struct envmap_s
{
vec3_t angles;
int flags;
} envmap_t;
const envmap_t r_skyBoxInfo[6] =
{
{{ 0, 270, 180}, IMAGE_FLIP_X },
{{ 0, 90, 180}, IMAGE_FLIP_X },
{{ -90, 0, 180}, IMAGE_FLIP_X },
{{ 90, 0, 180}, IMAGE_FLIP_X },
{{ 0, 0, 180}, IMAGE_FLIP_X },
{{ 0, 180, 180}, IMAGE_FLIP_X },
};
const envmap_t r_envMapInfo[6] =
{
{{ 0, 0, 90}, 0 },
{{ 0, 180, -90}, 0 },
{{ 0, 90, 0}, 0 },
{{ 0, 270, 180}, 0 },
{{-90, 180, -90}, 0 },
{{ 90, 0, 90}, 0 }
};
qboolean VID_ScreenShot( const char *filename, int shot_type )
{
rgbdata_t *r_shot;
uint flags = IMAGE_FLIP_Y;
int width = 0, height = 0;
qboolean result;
r_shot = Mem_Calloc( r_temppool, sizeof( rgbdata_t ));
r_shot->width = (gpGlobals->width + 3) & ~3;
r_shot->height = (gpGlobals->height + 3) & ~3;
r_shot->flags = IMAGE_HAS_COLOR;
r_shot->type = PF_RGBA_32;
r_shot->size = r_shot->width * r_shot->height * gEngfuncs.Image_GetPFDesc( r_shot->type )->bpp;
r_shot->palette = NULL;
r_shot->buffer = Mem_Malloc( r_temppool, r_shot->size );
// get screen frame
pglReadPixels( 0, 0, r_shot->width, r_shot->height, GL_RGBA, GL_UNSIGNED_BYTE, r_shot->buffer );
switch( shot_type )
{
case VID_SCREENSHOT:
break;
case VID_SNAPSHOT:
gEngfuncs.fsapi->AllowDirectPaths( true );
break;
case VID_LEVELSHOT:
case VID_MINISHOT:
flags |= IMAGE_RESAMPLE;
height = shot_type == VID_MINISHOT ? 200 : 480;
width = Q_rint( height * ((double)r_shot->width / r_shot->height ));
break;
case VID_MAPSHOT:
flags |= IMAGE_RESAMPLE|IMAGE_QUANTIZE; // GoldSrc request overviews in 8-bit format
height = 768;
width = 1024;
break;
}
gEngfuncs.Image_Process( &r_shot, width, height, flags, 0.0f );
// write image
result = gEngfuncs.FS_SaveImage( filename, r_shot );
gEngfuncs.fsapi->AllowDirectPaths( false ); // always reset after store screenshot
gEngfuncs.FS_FreeImage( r_shot );
return result;
}
/*
=================
VID_CubemapShot
=================
*/
qboolean VID_CubemapShot( const char *base, uint size, const float *vieworg, qboolean skyshot )
{
rgbdata_t *r_shot, *r_side;
byte *temp = NULL;
byte *buffer = NULL;
string basename;
int i = 1, flags, result;
if( !RI.drawWorld || !WORLDMODEL )
return false;
// make sure the specified size is valid
while( i < size ) i<<=1;
if( i != size ) return false;
if( size > gpGlobals->width || size > gpGlobals->height )
return false;
// alloc space
temp = Mem_Malloc( r_temppool, size * size * 3 );
buffer = Mem_Malloc( r_temppool, size * size * 3 * 6 );
r_shot = Mem_Calloc( r_temppool, sizeof( rgbdata_t ));
r_side = Mem_Calloc( r_temppool, sizeof( rgbdata_t ));
// use client vieworg
if( !vieworg ) vieworg = RI.vieworg;
for( i = 0; i < 6; i++ )
{
// go into 3d mode
R_Set2DMode( false );
if( skyshot )
{
R_DrawCubemapView( vieworg, r_skyBoxInfo[i].angles, size );
flags = r_skyBoxInfo[i].flags;
}
else
{
R_DrawCubemapView( vieworg, r_envMapInfo[i].angles, size );
flags = r_envMapInfo[i].flags;
}
pglReadPixels( 0, 0, size, size, GL_RGB, GL_UNSIGNED_BYTE, temp );
r_side->flags = IMAGE_HAS_COLOR;
r_side->width = r_side->height = size;
r_side->type = PF_RGB_24;
r_side->size = r_side->width * r_side->height * 3;
r_side->buffer = temp;
if( flags ) gEngfuncs.Image_Process( &r_side, 0, 0, flags, 0.0f );
memcpy( buffer + (size * size * 3 * i), r_side->buffer, size * size * 3 );
}
r_shot->flags = IMAGE_HAS_COLOR;
r_shot->flags |= (skyshot) ? IMAGE_SKYBOX : IMAGE_CUBEMAP;
r_shot->width = size;
r_shot->height = size;
r_shot->type = PF_RGB_24;
r_shot->size = r_shot->width * r_shot->height * 3 * 6;
r_shot->palette = NULL;
r_shot->buffer = buffer;
// make sure what we have right extension
Q_strncpy( basename, base, sizeof( basename ));
COM_ReplaceExtension( basename, ".tga", sizeof( basename ));
// write image as 6 sides
result = gEngfuncs.FS_SaveImage( basename, r_shot );
gEngfuncs.FS_FreeImage( r_shot );
gEngfuncs.FS_FreeImage( r_side );
return result;
}
//=======================================================
/*
===============
R_ShowTextures
Draw all the images to the screen, on top of whatever
was there. This is used to test for texture thrashing.
===============
*/
void R_ShowTextures( void )
{
float w, h;
int start, k;
int base_w, base_h;
rgba_t color = { 255, 255, 255, 255 };
int charHeight;
static qboolean showHelp = true;
float time; //nc add
float time_cubemap; //nc add
float cbm_cos, cbm_sin; //nc add
int per_page; //nc add
qboolean empty_page;
int skipped_empty_pages;
if( !r_showtextures->value )
return;
if( showHelp )
{
gEngfuncs.CL_CenterPrint( "use '<-' and '->' keys to change atlas page, ESC to quit", 0.25f );
showHelp = false;
}
pglClear( GL_COLOR_BUFFER_BIT );
w = 200;
h = 200;
time = gp_cl->time * 0.5f;
time -= floor( time );
time_cubemap = gp_cl->time * 0.25f;
time_cubemap -= floor( time_cubemap );
time_cubemap *= 6.2831853f;
SinCos( time_cubemap, &cbm_sin, &cbm_cos );
gEngfuncs.Con_DrawStringLen( NULL, NULL, &charHeight );
base_w = gpGlobals->width / w;
base_h = gpGlobals->height / ( h + charHeight * 2 );
per_page = base_w * base_h;
start = per_page * ( r_showtextures->value - 1 ) + 1; // skip empty null texture
GL_SetRenderMode( kRenderTransTexture ); // nc changed from normal to trans, Con_DrawString does this anyway
empty_page = true;
skipped_empty_pages = 0;
while( empty_page )
{
for( k = 0; k < per_page; k++ )
{
const gl_texture_t *image;
int i;
i = k + start;
if( i >= MAX_TEXTURES )
{
empty_page = false;
break;
}
image = R_GetTexture( i );
if( pglIsTexture( image->texnum ))
{
empty_page = false;
break;
}
}
if( empty_page )
{
start += per_page;
skipped_empty_pages++;
}
}
if( skipped_empty_pages > 0 )
{
char text[MAX_VA_STRING];
Q_snprintf( text, sizeof( text ), "%s: skipped %d empty texture pages", __func__, skipped_empty_pages );
gEngfuncs.CL_CenterPrint( text, 0.25f );
}
for( k = 0; k < per_page; k++ )
{
const gl_texture_t *image;
int textlen, i;
char text[MAX_VA_STRING];
string shortname;
float x, y;
i = k + start;
if ( i >= MAX_TEXTURES )
break;
image = R_GetTexture( i );
if( !pglIsTexture( image->texnum ))
continue;
x = k % base_w * gpGlobals->width / base_w;
y = k / base_w * gpGlobals->height / base_h;
pglColor4f( 1.0f, 1.0f, 1.0f, 1.0f );
GL_Bind( XASH_TEXTURE0, image->texnum );
if( FBitSet( image->flags, TF_DEPTHMAP ) && !FBitSet( image->flags, TF_NOCOMPARE ))
pglTexParameteri( image->target, GL_TEXTURE_COMPARE_MODE_ARB, GL_NONE );
pglBegin( GL_QUADS );
#if XASH_NANOGL
#undef pglTexCoord3f
#define pglTexCoord3f( s, t, u ) pglTexCoord2f( s, t ) // not really correct but it requires nanogl rework
#endif // XASH_GLES
if( image->target == GL_TEXTURE_CUBE_MAP_ARB )
{
pglTexCoord3f( 0.75 * cbm_cos - cbm_sin, 0.75 * cbm_sin + cbm_cos, 1.0 );
pglVertex2f( x, y );
pglTexCoord3f( 0.75 * cbm_cos + cbm_sin, 0.75 * cbm_sin - cbm_cos, 1.0 );
pglVertex2f( x + w, y );
pglTexCoord3f( 0.75 * cbm_cos + cbm_sin, 0.75 * cbm_sin - cbm_cos, -1.0 );
pglVertex2f( x + w, y + h );
pglTexCoord3f( 0.75 * cbm_cos - cbm_sin, 0.75 * cbm_sin + cbm_cos, -1.0 );
pglVertex2f( x, y + h );
}
else if( image->target == GL_TEXTURE_RECTANGLE_EXT )
{
pglTexCoord2f( 0, 0 );
pglVertex2f( x, y );
pglTexCoord2f( image->width, 0 );
pglVertex2f( x + w, y );
pglTexCoord2f( image->width, image->height );
pglVertex2f( x + w, y + h );
pglTexCoord2f( 0, image->height );
pglVertex2f( x, y + h );
}
else
{
pglTexCoord3f( 0, 0, time );
pglVertex2f( x, y );
pglTexCoord3f( 1, 0, time );
pglVertex2f( x + w, y );
pglTexCoord3f( 1, 1, time );
pglVertex2f( x + w, y + h );
pglTexCoord3f( 0, 1, time);
pglVertex2f( x, y + h );
}
pglEnd();
if( FBitSet( image->flags, TF_DEPTHMAP ) && !FBitSet( image->flags, TF_NOCOMPARE ))
pglTexParameteri( image->target, GL_TEXTURE_COMPARE_MODE_ARB, GL_COMPARE_R_TO_TEXTURE_ARB );
COM_FileBase( image->name, shortname, sizeof( shortname ));
gEngfuncs.Con_DrawStringLen( shortname, &textlen, NULL );
if( textlen > w )
{
// cutoff too long names, it looks ugly
shortname[16] = '.';
shortname[17] = '.';
shortname[18] = '\0';
}
gEngfuncs.Con_DrawString( x + 1, y + h, shortname, color );
if( image->target == GL_TEXTURE_3D || image->target == GL_TEXTURE_2D_ARRAY_EXT )
Q_snprintf( text, sizeof( text ), "%ix%ix%i %s", image->width, image->height, image->depth, GL_TargetToString( image->target ));
else
Q_snprintf( text, sizeof( text ), "%ix%i %s", image->width, image->height, GL_TargetToString( image->target ));
gEngfuncs.Con_DrawString( x + 1, y + h + charHeight, text, color );
Q_strncpy( text, Q_memprint( image->size ), sizeof( text ));
gEngfuncs.Con_DrawStringLen( text, &textlen, NULL );
gEngfuncs.Con_DrawString(( x + w ) - textlen - 1, y + h + charHeight, text, color );
}
gEngfuncs.CL_DrawCenterPrint ();
pglFinish();
}
/*
================
SCR_TimeRefresh_f
timerefresh [noflip]
================
*/
void SCR_TimeRefresh_f( void )
{
int i;
double start, stop;
double time;
if( ENGINE_GET_PARM( PARM_CONNSTATE ) != ca_active )
return;
start = gEngfuncs.pfnTime();
// run without page flipping like GoldSrc
if( gEngfuncs.Cmd_Argc() == 1 )
{
pglDrawBuffer( GL_FRONT );
for( i = 0; i < 128; i++ )
{
gpGlobals->viewangles[1] = i / 128.0f * 360.0f;
R_RenderScene();
}
pglFinish();
R_EndFrame();
}
else
{
for( i = 0; i < 128; i++ )
{
R_BeginFrame( true );
gpGlobals->viewangles[1] = i / 128.0f * 360.0f;
R_RenderScene();
R_EndFrame();
}
}
stop = gEngfuncs.pfnTime ();
time = (stop - start);
gEngfuncs.Con_Printf( "%f seconds (%f fps)\n", time, 128 / time );
}