/* d_varsa.S (description) Copyright (C) 1996-1997 Id Software, Inc. 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 2 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. You should have received a copy of the GNU General Public License along with this program; if not, write to: Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307, USA $Id$ */ #ifdef HAVE_CONFIG_H # include #endif #include "asm_i386.h" #include "quakeasm.h" #include "asm_draw.h" #include "d_ifacea.h" #ifdef PIC #undef USE_INTEL_ASM //XXX asm pic hack #endif #ifdef USE_INTEL_ASM .data //------------------------------------------------------- // global refresh variables //------------------------------------------------------- // FIXME: put all refresh variables into one contiguous block. Make into one // big structure, like cl or sv? .align 4 .globl C(d_sdivzstepu) .globl C(d_tdivzstepu) .globl C(d_zistepu) .globl C(d_sdivzstepv) .globl C(d_tdivzstepv) .globl C(d_zistepv) .globl C(d_sdivzorigin) .globl C(d_tdivzorigin) .globl C(d_ziorigin) C(d_sdivzstepu): .single 0 C(d_tdivzstepu): .single 0 C(d_zistepu): .single 0 C(d_sdivzstepv): .single 0 C(d_tdivzstepv): .single 0 C(d_zistepv): .single 0 C(d_sdivzorigin): .single 0 C(d_tdivzorigin): .single 0 C(d_ziorigin): .single 0 .globl C(sadjust) .globl C(tadjust) .globl C(bbextents) .globl C(bbextentt) C(sadjust): .long 0 C(tadjust): .long 0 C(bbextents): .long 0 C(bbextentt): .long 0 .globl C(cacheblock) .globl C(d_viewbuffer) .globl C(cachewidth) .globl C(d_pzbuffer) .globl C(d_zrowbytes) .globl C(d_zwidth) C(cacheblock): .long 0 C(cachewidth): .long 0 C(d_viewbuffer): .long 0 C(d_pzbuffer): .long 0 C(d_zrowbytes): .long 0 C(d_zwidth): .long 0 //------------------------------------------------------- // ASM-only variables //------------------------------------------------------- .globl C(izi) C(izi): .long 0 .globl C(pbase), C(s), C(t), C(sfracf), C(tfracf), C(snext), C(tnext) .globl C(spancountminus1), C(zi16stepu), C(sdivz16stepu), C(tdivz16stepu) .globl C(zi8stepu), C(sdivz8stepu), C(tdivz8stepu), C(pz) C(s): .long 0 C(t): .long 0 C(snext): .long 0 C(tnext): .long 0 C(sfracf): .long 0 C(tfracf): .long 0 C(pbase): .long 0 C(zi8stepu): .long 0 C(sdivz8stepu): .long 0 C(tdivz8stepu): .long 0 C(zi16stepu): .long 0 C(sdivz16stepu): .long 0 C(tdivz16stepu): .long 0 C(spancountminus1): .long 0 C(pz): .long 0 .globl C(izistep) C(izistep): .long 0 //------------------------------------------------------- // local variables for d_draw16.s //------------------------------------------------------- .globl C(reciprocal_table_16) // 1/2, 1/3, 1/4, 1/5, 1/6, 1/7, 1/8, 1/9, 1/10, 1/11, 1/12, 1/13, // 1/14, and 1/15 in 0.32 form C(reciprocal_table_16): .long 0x40000000, 0x2aaaaaaa, 0x20000000 .long 0x19999999, 0x15555555, 0x12492492 .long 0x10000000, 0xe38e38e, 0xccccccc, 0xba2e8ba .long 0xaaaaaaa, 0x9d89d89, 0x9249249, 0x8888888 //------------------------------------------------------- // local variables for d_parta.s //------------------------------------------------------- .globl C(DP_Count), C(DP_u), C(DP_v), C(DP_32768), C(DP_Color) .globl C(DP_Pix), C(DP_EntryTable) C(DP_Count): .long 0 C(DP_u): .long 0 C(DP_v): .long 0 C(DP_32768): .single 32768.0 C(DP_Color): .long 0 C(DP_Pix): .long 0 #ifndef NeXT .extern C(DP_1x1) .extern C(DP_2x2) .extern C(DP_3x3) .extern C(DP_4x4) #endif C(DP_EntryTable): .long C(DP_1x1), C(DP_2x2), C(DP_3x3), C(DP_4x4) // // advancetable is 8 bytes, but points to the middle of that range so negative // offsets will work // .globl C(advancetable), C(sstep), C(tstep), C(pspantemp) .globl C(counttemp), C(jumptemp) C(advancetable): .long 0, 0 C(sstep): .long 0 C(tstep): .long 0 C(pspantemp): .long 0 C(counttemp): .long 0 C(jumptemp): .long 0 // 1/2, 1/3, 1/4, 1/5, 1/6, and 1/7 in 0.32 form .globl C(reciprocal_table), C(entryvec_table) C(reciprocal_table): .long 0x40000000, 0x2aaaaaaa, 0x20000000 .long 0x19999999, 0x15555555, 0x12492492 #ifndef NeXT .extern C(Entry2_8) .extern C(Entry3_8) .extern C(Entry4_8) .extern C(Entry5_8) .extern C(Entry6_8) .extern C(Entry7_8) .extern C(Entry8_8) #endif C(entryvec_table): .long 0, C(Entry2_8), C(Entry3_8), C(Entry4_8) .long C(Entry5_8), C(Entry6_8), C(Entry7_8), C(Entry8_8) #ifndef NeXT .extern C(Spr8Entry2_8) .extern C(Spr8Entry3_8) .extern C(Spr8Entry4_8) .extern C(Spr8Entry5_8) .extern C(Spr8Entry6_8) .extern C(Spr8Entry7_8) .extern C(Spr8Entry8_8) #endif .globl C(spr8entryvec_table) C(spr8entryvec_table): .long 0, C(Spr8Entry2_8), C(Spr8Entry3_8), C(Spr8Entry4_8) .long C(Spr8Entry5_8), C(Spr8Entry6_8), C(Spr8Entry7_8), C(Spr8Entry8_8) #endif // USE_INTEL_ASM #if defined(__linux__) && defined(__ELF__) .section .note.GNU-stack,"",%progbits #endif