/* gl_triapi.c - TriAPI draw methods Copyright (C) 2011 Uncle Mike Copyright (C) 2019 a1batross 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 "r_local.h" #include "const.h" static struct { int renderMode; // override kRenderMode from TriAPI vec4_t triRGBA; } ds; finalvert_t triv[3]; int vertcount, n; int mode; short s,t; uint light; /* =============================================================== TRIAPI IMPLEMENTATION =============================================================== */ /* ============= TriRenderMode set rendermode ============= */ void TriRenderMode( int mode ) { ds.renderMode = vid.rendermode = mode; #if 0 switch( mode ) { case kRenderNormal: pglTexEnvi( GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE ); pglDisable( GL_BLEND ); pglDepthMask( GL_TRUE ); break; case kRenderTransAlpha: pglEnable( GL_BLEND ); pglTexEnvi( GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE ); pglBlendFunc( GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA ); pglDepthMask( GL_FALSE ); break; case kRenderTransColor: case kRenderTransTexture: pglEnable( GL_BLEND ); pglBlendFunc( GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA ); break; case kRenderGlow: case kRenderTransAdd: pglBlendFunc( GL_SRC_ALPHA, GL_ONE ); pglEnable( GL_BLEND ); pglDepthMask( GL_FALSE ); break; } #endif } /* ============= TriBegin begin triangle sequence ============= */ void TriBegin( int mode1 ) { #if 0 switch( mode ) { case TRI_POINTS: mode = GL_POINTS; break; case TRI_TRIANGLES: mode = GL_TRIANGLES; break; case TRI_TRIANGLE_FAN: mode = GL_TRIANGLE_FAN; break; case TRI_QUADS: mode = GL_QUADS; break; case TRI_LINES: mode = GL_LINES; break; case TRI_TRIANGLE_STRIP: mode = GL_TRIANGLE_STRIP; break; case TRI_QUAD_STRIP: mode = GL_QUAD_STRIP; break; case TRI_POLYGON: default: mode = GL_POLYGON; break; } pglBegin( mode ); #endif if( mode1 == TRI_QUADS ) mode1 = TRI_TRIANGLE_FAN; mode = mode1; vertcount = n = vertcount = 0; } /* ============= TriEnd draw triangle sequence ============= */ void TriEnd( void ) { //if( vertcount == 3 ) //pglEnd( ); } /* ============= _TriColor4f ============= */ void _TriColor4f( float rr, float gg, float bb, float aa ) { //pglColor4f( r, g, b, a ); unsigned short r,g,b; unsigned int major, minor; //gEngfuncs.Con_Printf("%d\n", vid.alpha); light = (rr + gg + bb) * 31 / 3; if( light > 31 ) light = 31; if( !vid.is2d && vid.rendermode == kRenderNormal ) return; vid.alpha = aa * 7; if( vid.alpha > 7 ) vid.alpha = 7; if( rr == 1 && gg == 1 && bb == 1 ) { vid.color = COLOR_WHITE; return; } r = rr * 31, g = gg * 63, b = bb * 31; if( r > 31 ) r = 31; if( g > 63 ) g = 63; if( b > 31 ) b = 31; major = (((r >> 2) & MASK(3)) << 5) |( (( (g >> 3) & MASK(3)) << 2 ) )| (((b >> 3) & MASK(2))); // save minor GBRGBRGB minor = MOVE_BIT(r,1,5) | MOVE_BIT(r,0,2) | MOVE_BIT(g,2,7) | MOVE_BIT(g,1,4) | MOVE_BIT(g,0,1) | MOVE_BIT(b,2,6)| MOVE_BIT(b,1,3)|MOVE_BIT(b,0,0); vid.color = major << 8 | (minor & 0xFF); } /* ============= TriColor4ub ============= */ void TriColor4ub( byte r, byte g, byte b, byte a ) { ds.triRGBA[0] = r * (1.0f / 255.0f); ds.triRGBA[1] = g * (1.0f / 255.0f); ds.triRGBA[2] = b * (1.0f / 255.0f); ds.triRGBA[3] = a * (1.0f / 255.0f); _TriColor4f( ds.triRGBA[0], ds.triRGBA[1], ds.triRGBA[2], 1.0f ); } /* ================= TriColor4f ================= */ void TriColor4f( float r, float g, float b, float a ) { //if( a < 0.5 ) // a = 1; if( ds.renderMode == kRenderTransAlpha ) TriColor4ub( r * 255.0f, g * 255.0f, b * 255.0f, a * 255.0f ); else _TriColor4f( r * a, g * a, b * a, 1.0 ); ds.triRGBA[0] = r; ds.triRGBA[1] = g; ds.triRGBA[2] = b; ds.triRGBA[3] = a; } /* ============= TriTexCoord2f ============= */ void TriTexCoord2f( float u, float v ) { //pglTexCoord2f( u, v ); while( u < 0 ) u = u + 1; while( v < 0 ) v = v + 1; while( u > 1 ) u = u - 1; while( v > 1 ) v = v - 1; s = r_affinetridesc.skinwidth * bound(0.01,u,0.99); t = r_affinetridesc.skinheight * bound(0.01,v,0.99); } /* ============= TriVertex3fv ============= */ void TriVertex3fv( const float *v ) { //pglVertex3fv( v ); TriVertex3f( v[0], v[1], v[2] ); } /* ============= TriVertex3f ============= */ void TriVertex3f( float x, float y, float z ) { if( mode == TRI_TRIANGLES ) { R_SetupFinalVert( &triv[vertcount], x, y, z, light << 8,s,t); vertcount++; if( vertcount == 3 ) { R_RenderTriangle( &triv[0], &triv[1], &triv[2] ); //R_RenderTriangle( &triv[2], &triv[1], &triv[0] ); vertcount = 0; } } if( mode == TRI_TRIANGLE_FAN ) { R_SetupFinalVert( &triv[vertcount], x, y, z, light << 8,s,t); vertcount++; if( vertcount >= 3 ) { R_RenderTriangle( &triv[0], &triv[1], &triv[2] ); //R_RenderTriangle( &triv[2], &triv[1], &triv[0] ); triv[1] = triv[2]; vertcount = 2; } } if( mode == TRI_TRIANGLE_STRIP ) { R_SetupFinalVert( &triv[n], x, y, z, light << 8,s,t); n++; vertcount++; if( n == 3 ) n = 0; if (vertcount >= 3) { if( vertcount & 1 ) R_RenderTriangle( &triv[0], &triv[1], &triv[2] ); else R_RenderTriangle( &triv[2], &triv[1], &triv[0] ); } } #if 0 if( mode == TRI_TRIANGLE_STRIP ) { R_SetupFinalVert( &triv[vertcount], x, y, z, 0,s,t); vertcount++; if( vertcount == 3 ) { R_RenderTriangle( triv ); finalvert_t fv = triv[0]; triv[0] = triv[2]; triv[2] = fv; R_RenderTriangle( triv ); fv = triv[0]; triv[0] = triv[2]; triv[2] = fv; triv[0] = triv[1]; triv[1] = triv[2]; vertcount = 2; } } #endif } void R_AliasWorldToScreen( const float *v, float *out ); /* ============= TriWorldToScreen convert world coordinates (x,y,z) into screen (x, y) ============= */ int TriWorldToScreen( const float *world, float *screen ) { int retval; R_AliasWorldToScreen( world, screen ); retval = 0; screen[0] = 0.5f * screen[0] * (float)RI.viewport[2]; screen[1] = -0.5f * screen[1] * (float)RI.viewport[3]; screen[0] += 0.5f * (float)RI.viewport[2]; screen[1] += 0.5f * (float)RI.viewport[3]; return retval; } /* ============= TriSpriteTexture bind current texture ============= */ int TriSpriteTexture( model_t *pSpriteModel, int frame ) { int gl_texturenum; if(( gl_texturenum = R_GetSpriteTexture( pSpriteModel, frame )) == 0 ) return 0; if( gl_texturenum <= 0 || gl_texturenum > MAX_TEXTURES ) gl_texturenum = tr.defaultTexture; GL_Bind( XASH_TEXTURE0, gl_texturenum ); return 1; } /* ============= TriFog enables global fog on the level ============= */ void TriFog( float flFogColor[3], float flStart, float flEnd, int bOn ) { #if 0 // overrided by internal fog if( RI.fogEnabled ) return; RI.fogCustom = bOn; // check for invalid parms if( flEnd <= flStart ) { RI.fogCustom = false; pglDisable( GL_FOG ); return; } if( RI.fogCustom ) pglEnable( GL_FOG ); else pglDisable( GL_FOG ); // copy fog params RI.fogColor[0] = flFogColor[0] / 255.0f; RI.fogColor[1] = flFogColor[1] / 255.0f; RI.fogColor[2] = flFogColor[2] / 255.0f; RI.fogStart = flStart; RI.fogColor[3] = 1.0f; RI.fogDensity = 0.0f; RI.fogSkybox = true; RI.fogEnd = flEnd; pglFogi( GL_FOG_MODE, GL_LINEAR ); pglFogfv( GL_FOG_COLOR, RI.fogColor ); pglFogf( GL_FOG_START, RI.fogStart ); pglFogf( GL_FOG_END, RI.fogEnd ); pglHint( GL_FOG_HINT, GL_NICEST ); #endif } /* ============= TriGetMatrix very strange export ============= */ void TriGetMatrix( const int pname, float *matrix ) { //pglGetFloatv( pname, matrix ); } /* ============= TriForParams ============= */ void TriFogParams( float flDensity, int iFogSkybox ) { RI.fogDensity = flDensity; RI.fogSkybox = iFogSkybox; } /* ============= TriCullFace ============= */ void TriCullFace( TRICULLSTYLE mode ) { #if 0 int glMode; switch( mode ) { case TRI_FRONT: glMode = GL_FRONT; break; default: glMode = GL_NONE; break; } GL_Cull( mode ); #endif } /* ============= TriBrightness ============= */ void TriBrightness( float brightness ) { float r, g, b; //if( brightness < 0.5 ) // brightness = 1; //0.5; //ds.triRGBA[3] = 1; r = ds.triRGBA[0] * ds.triRGBA[3] * brightness; g = ds.triRGBA[1] * ds.triRGBA[3] * brightness; b = ds.triRGBA[2] * ds.triRGBA[3] * brightness; _TriColor4f( r, g, b, 1.0f ); }