/************************************************************************** Copyright 2000 Silicon Integrated Systems Corp, Inc., HsinChu, Taiwan. Copyright 2003 Eric Anholt All Rights Reserved. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation on the rights to use, copy, modify, merge, publish, distribute, sub license, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice (including the next paragraph) shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL ERIC ANHOLT OR SILICON INTEGRATED SYSTEMS CORP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************/ /* * Authors: * Sung-Ching Lin * Eric Anholt */ #include "sis_dri.h" #include "sis_context.h" #include "sis_state.h" #include "sis_dd.h" #include "sis_span.h" #include "sis_stencil.h" #include "sis_tex.h" #include "sis_tris.h" #include "sis_alloc.h" #include "main/imports.h" #include "utils.h" #include "main/framebuffer.h" #include "drivers/common/driverfuncs.h" #include "swrast/swrast.h" #include "swrast_setup/swrast_setup.h" #include "vbo/vbo.h" #include "tnl/tnl.h" #define need_GL_EXT_fog_coord #define need_GL_EXT_secondary_color #include "main/remap_helper.h" #ifndef SIS_DEBUG int SIS_DEBUG = 0; #endif int GlobalCurrentHwcx = -1; int GlobalHwcxCountBase = 1; int GlobalCmdQueueLen = 0; static struct dri_extension card_extensions[] = { { "GL_ARB_multitexture", NULL }, { "GL_ARB_texture_border_clamp", NULL }, { "GL_ARB_texture_mirrored_repeat", NULL }, /*{ "GL_EXT_fog_coord", GL_EXT_fog_coord_functions },*/ { "GL_EXT_texture_lod_bias", NULL }, { "GL_EXT_secondary_color", GL_EXT_secondary_color_functions }, { "GL_EXT_stencil_wrap", NULL }, { "GL_MESA_ycbcr_texture", NULL }, { "GL_NV_blend_square", NULL }, { NULL, NULL } }; #if 0 static struct dri_extension card_extensions_6326[] = { /*{ "GL_ARB_texture_border_clamp", NULL },*/ /*{ "GL_ARB_texture_mirrored_repeat", NULL },*/ /*{ "GL_MESA_ycbcr_texture", NULL },*/ { NULL, NULL } }; #endif static const struct dri_debug_control debug_control[] = { { "fall", DEBUG_FALLBACKS }, { NULL, 0 } }; void WaitEngIdle (sisContextPtr smesa) { GLuint engineState; if (smesa->is6326) { do { engineState = MMIO_READ(REG_3D_EngineFire); /* XXX right reg? */ } while ((engineState & ENG_3DIDLEQE) != 0); } else { do { engineState = MMIO_READ(REG_CommandQueue); } while ((engineState & SiS_EngIdle) != SiS_EngIdle); } } void Wait2DEngIdle (sisContextPtr smesa) { GLuint engineState; if (smesa->is6326) { do { engineState = MMIO_READ(REG_6326_BitBlt_Cmd); } while ((engineState & BLT_BUSY) != 0); } else { do { engineState = MMIO_READ(REG_CommandQueue); } while ((engineState & SiS_EngIdle2d) != SiS_EngIdle2d); } } /* To be called from mWait3DCmdQueue. Separate function for profiling * purposes, and speed doesn't matter because we're spinning anyway. */ void WaitingFor3dIdle(sisContextPtr smesa, int wLen) { if (smesa->is6326) { while (*(smesa->CurrentQueueLenPtr) < wLen) { *(smesa->CurrentQueueLenPtr) = ((GLuint)MMIO_READ(REG_3D_EngineFire) >> 16) * 2; } } else { while (*(smesa->CurrentQueueLenPtr) < wLen) { *(smesa->CurrentQueueLenPtr) = (MMIO_READ(REG_CommandQueue) & MASK_QueueLen) - 20; } } } void sisReAllocateBuffers(struct gl_context *ctx, struct gl_framebuffer *drawbuffer, GLuint width, GLuint height) { sisContextPtr smesa = SIS_CONTEXT(ctx); sisUpdateBufferSize(smesa); _mesa_resize_framebuffer(ctx, drawbuffer, width, height); } GLboolean sisCreateContext( gl_api api, const struct gl_config *glVisual, __DRIcontext *driContextPriv, void *sharedContextPrivate ) { struct gl_context *ctx, *shareCtx; __DRIscreen *sPriv = driContextPriv->driScreenPriv; sisContextPtr smesa; sisScreenPtr sisScreen; int i; struct dd_function_table functions; smesa = (sisContextPtr)CALLOC( sizeof(*smesa) ); if (smesa == NULL) return GL_FALSE; /* Init default driver functions then plug in our SIS-specific functions * (the texture functions are especially important) */ _mesa_init_driver_functions(&functions); sisInitDriverFuncs(&functions); sisInitTextureFuncs(&functions); /* Allocate the Mesa context */ if (sharedContextPrivate) shareCtx = ((sisContextPtr)sharedContextPrivate)->glCtx; else shareCtx = NULL; smesa->glCtx = _mesa_create_context( API_OPENGL, glVisual, shareCtx, &functions, (void *) smesa); if (!smesa->glCtx) { FREE(smesa); return GL_FALSE; } driContextPriv->driverPrivate = smesa; ctx = smesa->glCtx; sisScreen = smesa->sisScreen = (sisScreenPtr)(sPriv->private); smesa->is6326 = GL_FALSE; /* XXX */ smesa->driContext = driContextPriv; smesa->driScreen = sPriv; smesa->driDrawable = NULL; smesa->hHWContext = driContextPriv->hHWContext; smesa->driHwLock = &sPriv->pSAREA->lock; smesa->driFd = sPriv->fd; smesa->virtualX = sisScreen->screenX; smesa->virtualY = sisScreen->screenY; smesa->bytesPerPixel = sisScreen->cpp; smesa->IOBase = sisScreen->mmio.map; smesa->Chipset = sisScreen->deviceID; smesa->FbBase = sPriv->pFB; smesa->displayWidth = sPriv->fbWidth; smesa->front.pitch = sPriv->fbStride; smesa->sarea = (SISSAREAPriv *)((char *)sPriv->pSAREA + sisScreen->sarea_priv_offset); /* support ARGB8888 and RGB565 */ switch (smesa->bytesPerPixel) { case 4: smesa->redMask = 0x00ff0000; smesa->greenMask = 0x0000ff00; smesa->blueMask = 0x000000ff; smesa->alphaMask = 0xff000000; smesa->colorFormat = DST_FORMAT_ARGB_8888; break; case 2: smesa->redMask = 0xf800; smesa->greenMask = 0x07e0; smesa->blueMask = 0x001f; smesa->alphaMask = 0; smesa->colorFormat = DST_FORMAT_RGB_565; break; default: sis_fatal_error("Bad bytesPerPixel %d.\n", smesa->bytesPerPixel); } if (smesa->is6326) { ctx->Const.MaxTextureUnits = 1; ctx->Const.MaxTextureLevels = 9; } else { ctx->Const.MaxTextureUnits = 2; ctx->Const.MaxTextureLevels = 11; } ctx->Const.MaxTextureImageUnits = ctx->Const.MaxTextureUnits; ctx->Const.MaxTextureCoordUnits = ctx->Const.MaxTextureUnits; /* Parse configuration files */ driParseConfigFiles (&smesa->optionCache, &sisScreen->optionCache, sisScreen->driScreen->myNum, "sis"); #if DO_DEBUG SIS_DEBUG = driParseDebugString(getenv("SIS_DEBUG"), debug_control); #endif /* TODO: index mode */ smesa->CurrentQueueLenPtr = &(smesa->sarea->QueueLength); smesa->FrameCountPtr = &(smesa->sarea->FrameCount); /* set AGP */ smesa->AGPSize = sisScreen->agp.size; smesa->AGPBase = sisScreen->agp.map; smesa->AGPAddr = sisScreen->agpBaseOffset; /* Create AGP command buffer */ if (smesa->AGPSize != 0 && !driQueryOptionb(&smesa->optionCache, "agp_disable")) { smesa->vb = sisAllocAGP(smesa, 64 * 1024, &smesa->vb_agp_handle); if (smesa->vb != NULL) { smesa->using_agp = GL_TRUE; smesa->vb_cur = smesa->vb; smesa->vb_last = smesa->vb; smesa->vb_end = smesa->vb + 64 * 1024; smesa->vb_agp_offset = ((long)smesa->vb - (long)smesa->AGPBase + (long)smesa->AGPAddr); } } if (!smesa->using_agp) { smesa->vb = malloc(64 * 1024); if (smesa->vb == NULL) { FREE(smesa); return GL_FALSE; } smesa->vb_cur = smesa->vb; smesa->vb_last = smesa->vb; smesa->vb_end = smesa->vb + 64 * 1024; } smesa->GlobalFlag = 0L; smesa->Fallback = 0; /* Initialize the software rasterizer and helper modules. */ _swrast_CreateContext( ctx ); _vbo_CreateContext( ctx ); _tnl_CreateContext( ctx ); _swsetup_CreateContext( ctx ); _swrast_allow_pixel_fog( ctx, GL_TRUE ); _swrast_allow_vertex_fog( ctx, GL_FALSE ); _tnl_allow_pixel_fog( ctx, GL_TRUE ); _tnl_allow_vertex_fog( ctx, GL_FALSE ); /* XXX these should really go right after _mesa_init_driver_functions() */ if (smesa->is6326) { sis6326DDInitStateFuncs( ctx ); sis6326DDInitState( smesa ); /* Initializes smesa->zFormat, important */ } else { sisDDInitStateFuncs( ctx ); sisDDInitState( smesa ); /* Initializes smesa->zFormat, important */ sisDDInitStencilFuncs( ctx ); } sisInitTriFuncs( ctx ); sisDDInitSpanFuncs( ctx ); driInitExtensions( ctx, card_extensions, GL_FALSE ); for (i = 0; i < SIS_MAX_TEXTURES; i++) { smesa->TexStates[i] = 0; smesa->PrevTexFormat[i] = 0; } if (driQueryOptionb(&smesa->optionCache, "no_rast")) { fprintf(stderr, "disabling 3D acceleration\n"); FALLBACK(smesa, SIS_FALLBACK_DISABLE, 1); } smesa->texture_depth = driQueryOptioni(&smesa->optionCache, "texture_depth"); return GL_TRUE; } void sisDestroyContext ( __DRIcontext *driContextPriv ) { sisContextPtr smesa = (sisContextPtr)driContextPriv->driverPrivate; assert( smesa != NULL ); if ( smesa != NULL ) { _swsetup_DestroyContext( smesa->glCtx ); _tnl_DestroyContext( smesa->glCtx ); _vbo_DestroyContext( smesa->glCtx ); _swrast_DestroyContext( smesa->glCtx ); if (smesa->using_agp) sisFreeAGP(smesa, smesa->vb_agp_handle); /* free the Mesa context */ /* XXX: Is the next line needed? The DriverCtx (smesa) reference is * needed for sisDDDeleteTexture, since it needs to call the FB/AGP free * function. */ /* smesa->glCtx->DriverCtx = NULL; */ _mesa_destroy_context(smesa->glCtx); } FREE( smesa ); } GLboolean sisMakeCurrent( __DRIcontext *driContextPriv, __DRIdrawable *driDrawPriv, __DRIdrawable *driReadPriv ) { if ( driContextPriv ) { GET_CURRENT_CONTEXT(ctx); sisContextPtr oldSisCtx = ctx ? SIS_CONTEXT(ctx) : NULL; sisContextPtr newSisCtx = (sisContextPtr) driContextPriv->driverPrivate; struct gl_framebuffer *drawBuffer, *readBuffer; if ( newSisCtx != oldSisCtx) { newSisCtx->GlobalFlag = GFLAG_ALL; } newSisCtx->driDrawable = driDrawPriv; drawBuffer = (struct gl_framebuffer *)driDrawPriv->driverPrivate; readBuffer = (struct gl_framebuffer *)driReadPriv->driverPrivate; _mesa_make_current( newSisCtx->glCtx, drawBuffer, readBuffer ); sisUpdateBufferSize( newSisCtx ); sisUpdateClipping( newSisCtx->glCtx ); } else { _mesa_make_current( NULL, NULL, NULL ); } return GL_TRUE; } GLboolean sisUnbindContext( __DRIcontext *driContextPriv ) { return GL_TRUE; } void sis_update_render_state( sisContextPtr smesa ) { __GLSiSHardware *prev = &smesa->prev; mWait3DCmdQueue (45); if (smesa->GlobalFlag & GFLAG_ENABLESETTING) { if (!smesa->clearTexCache) { MMIO(REG_3D_TEnable, prev->hwCapEnable); } else { MMIO(REG_3D_TEnable, prev->hwCapEnable | MASK_TextureCacheClear); MMIO(REG_3D_TEnable, prev->hwCapEnable); smesa->clearTexCache = GL_FALSE; } } if (smesa->GlobalFlag & GFLAG_ENABLESETTING2) MMIO(REG_3D_TEnable2, prev->hwCapEnable2); /* Z Setting */ if (smesa->GlobalFlag & GFLAG_ZSETTING) { MMIO(REG_3D_ZSet, prev->hwZ); MMIO(REG_3D_ZStWriteMask, prev->hwZMask); MMIO(REG_3D_ZAddress, prev->hwOffsetZ); } /* Alpha Setting */ if (smesa->GlobalFlag & GFLAG_ALPHASETTING) MMIO(REG_3D_AlphaSet, prev->hwAlpha); if (smesa->GlobalFlag & GFLAG_DESTSETTING) { MMIO(REG_3D_DstSet, prev->hwDstSet); MMIO(REG_3D_DstAlphaWriteMask, prev->hwDstMask); MMIO(REG_3D_DstAddress, prev->hwOffsetDest); } /* Line Setting */ #if 0 if (smesa->GlobalFlag & GFLAG_LINESETTING) MMIO(REG_3D_LinePattern, prev->hwLinePattern); #endif /* Fog Setting */ if (smesa->GlobalFlag & GFLAG_FOGSETTING) { MMIO(REG_3D_FogSet, prev->hwFog); MMIO(REG_3D_FogInverseDistance, prev->hwFogInverse); MMIO(REG_3D_FogFarDistance, prev->hwFogFar); MMIO(REG_3D_FogFactorDensity, prev->hwFogDensity); } /* Stencil Setting */ if (smesa->GlobalFlag & GFLAG_STENCILSETTING) { MMIO(REG_3D_StencilSet, prev->hwStSetting); MMIO(REG_3D_StencilSet2, prev->hwStSetting2); } /* Miscellaneous Setting */ if (smesa->GlobalFlag & GFLAG_DSTBLEND) MMIO(REG_3D_DstBlendMode, prev->hwDstSrcBlend); if (smesa->GlobalFlag & GFLAG_CLIPPING) { MMIO(REG_3D_ClipTopBottom, prev->clipTopBottom); MMIO(REG_3D_ClipLeftRight, prev->clipLeftRight); } smesa->GlobalFlag &= ~GFLAG_RENDER_STATES; } void sis_update_texture_state (sisContextPtr smesa) { __GLSiSHardware *prev = &smesa->prev; mWait3DCmdQueue (55); if (smesa->clearTexCache || (smesa->GlobalFlag & GFLAG_TEXTUREADDRESS)) { MMIO(REG_3D_TEnable, prev->hwCapEnable | MASK_TextureCacheClear); MMIO(REG_3D_TEnable, prev->hwCapEnable); smesa->clearTexCache = GL_FALSE; } /* Texture Setting */ if (smesa->GlobalFlag & CFLAG_TEXTURERESET) MMIO(REG_3D_TextureSet, prev->texture[0].hwTextureSet); if (smesa->GlobalFlag & GFLAG_TEXTUREMIPMAP) MMIO(REG_3D_TextureMip, prev->texture[0].hwTextureMip); /* MMIO(REG_3D_TextureTransparencyColorHigh, prev->texture[0].hwTextureClrHigh); MMIO(REG_3D_TextureTransparencyColorLow, prev->texture[0].hwTextureClrLow); */ if (smesa->GlobalFlag & GFLAG_TEXBORDERCOLOR) MMIO(REG_3D_TextureBorderColor, prev->texture[0].hwTextureBorderColor); if (smesa->GlobalFlag & GFLAG_TEXTUREADDRESS) { switch ((prev->texture[0].hwTextureSet & MASK_TextureLevel) >> 8) { case 11: MMIO(REG_3D_TextureAddress11, prev->texture[0].texOffset11); case 10: MMIO(REG_3D_TextureAddress10, prev->texture[0].texOffset10); MMIO(REG_3D_TexturePitch10, prev->texture[0].texPitch10); case 9: MMIO(REG_3D_TextureAddress9, prev->texture[0].texOffset9); case 8: MMIO(REG_3D_TextureAddress8, prev->texture[0].texOffset8); MMIO(REG_3D_TexturePitch8, prev->texture[0].texPitch89); case 7: MMIO(REG_3D_TextureAddress7, prev->texture[0].texOffset7); case 6: MMIO(REG_3D_TextureAddress6, prev->texture[0].texOffset6); MMIO(REG_3D_TexturePitch6, prev->texture[0].texPitch67); case 5: MMIO(REG_3D_TextureAddress5, prev->texture[0].texOffset5); case 4: MMIO(REG_3D_TextureAddress4, prev->texture[0].texOffset4); MMIO(REG_3D_TexturePitch4, prev->texture[0].texPitch45); case 3: MMIO(REG_3D_TextureAddress3, prev->texture[0].texOffset3); case 2: MMIO(REG_3D_TextureAddress2, prev->texture[0].texOffset2); MMIO(REG_3D_TexturePitch2, prev->texture[0].texPitch23); case 1: MMIO(REG_3D_TextureAddress1, prev->texture[0].texOffset1); case 0: MMIO(REG_3D_TextureAddress0, prev->texture[0].texOffset0); MMIO(REG_3D_TexturePitch0, prev->texture[0].texPitch01); } } if (smesa->GlobalFlag & CFLAG_TEXTURERESET_1) MMIO(REG_3D_Texture1Set, prev->texture[1].hwTextureSet); if (smesa->GlobalFlag & GFLAG_TEXTUREMIPMAP_1) MMIO(REG_3D_Texture1Mip, prev->texture[1].hwTextureMip); if (smesa->GlobalFlag & GFLAG_TEXBORDERCOLOR_1) { MMIO(REG_3D_Texture1BorderColor, prev->texture[1].hwTextureBorderColor); } if (smesa->GlobalFlag & GFLAG_TEXTUREADDRESS_1) { switch ((prev->texture[1].hwTextureSet & MASK_TextureLevel) >> 8) { case 11: MMIO(REG_3D_Texture1Address11, prev->texture[1].texOffset11); case 10: MMIO(REG_3D_Texture1Address10, prev->texture[1].texOffset10); MMIO(REG_3D_Texture1Pitch10, prev->texture[1].texPitch10); case 9: MMIO(REG_3D_Texture1Address9, prev->texture[1].texOffset9); case 8: MMIO(REG_3D_Texture1Address8, prev->texture[1].texOffset8); MMIO(REG_3D_Texture1Pitch8, prev->texture[1].texPitch89); case 7: MMIO(REG_3D_Texture1Address7, prev->texture[1].texOffset7); case 6: MMIO(REG_3D_Texture1Address6, prev->texture[1].texOffset6); MMIO(REG_3D_Texture1Pitch6, prev->texture[1].texPitch67); case 5: MMIO(REG_3D_Texture1Address5, prev->texture[1].texOffset5); case 4: MMIO(REG_3D_Texture1Address4, prev->texture[1].texOffset4); MMIO(REG_3D_Texture1Pitch4, prev->texture[1].texPitch45); case 3: MMIO(REG_3D_Texture1Address3, prev->texture[1].texOffset3); case 2: MMIO(REG_3D_Texture1Address2, prev->texture[1].texOffset2); MMIO(REG_3D_Texture1Pitch2, prev->texture[1].texPitch23); case 1: MMIO(REG_3D_Texture1Address1, prev->texture[1].texOffset1); case 0: MMIO(REG_3D_Texture1Address0, prev->texture[1].texOffset0); MMIO(REG_3D_Texture1Pitch0, prev->texture[1].texPitch01); } } /* texture environment */ if (smesa->GlobalFlag & GFLAG_TEXTUREENV) { MMIO(REG_3D_TextureBlendFactor, prev->hwTexEnvColor); MMIO(REG_3D_TextureColorBlendSet0, prev->hwTexBlendColor0); MMIO(REG_3D_TextureAlphaBlendSet0, prev->hwTexBlendAlpha0); } if (smesa->GlobalFlag & GFLAG_TEXTUREENV_1) { MMIO(REG_3D_TextureBlendFactor, prev->hwTexEnvColor); MMIO(REG_3D_TextureColorBlendSet1, prev->hwTexBlendColor1); MMIO(REG_3D_TextureAlphaBlendSet1, prev->hwTexBlendAlpha1); } smesa->GlobalFlag &= ~GFLAG_TEXTURE_STATES; } void sis6326_update_render_state( sisContextPtr smesa ) { __GLSiSHardware *prev = &smesa->prev; mWait3DCmdQueue (45); if (smesa->GlobalFlag & GFLAG_ENABLESETTING) { if (!smesa->clearTexCache) { MMIO(REG_6326_3D_TEnable, prev->hwCapEnable); } else { MMIO(REG_6326_3D_TEnable, prev->hwCapEnable & ~S_ENABLE_TextureCache); MMIO(REG_6326_3D_TEnable, prev->hwCapEnable); smesa->clearTexCache = GL_FALSE; } } /* Z Setting */ if (smesa->GlobalFlag & GFLAG_ZSETTING) { MMIO(REG_6326_3D_ZSet, prev->hwZ); MMIO(REG_6326_3D_ZAddress, prev->hwOffsetZ); } /* Alpha Setting */ if (smesa->GlobalFlag & GFLAG_ALPHASETTING) MMIO(REG_6326_3D_AlphaSet, prev->hwAlpha); if (smesa->GlobalFlag & GFLAG_DESTSETTING) { MMIO(REG_6326_3D_DstSet, prev->hwDstSet); MMIO(REG_6326_3D_DstAddress, prev->hwOffsetDest); } /* Fog Setting */ if (smesa->GlobalFlag & GFLAG_FOGSETTING) { MMIO(REG_6326_3D_FogSet, prev->hwFog); } /* Miscellaneous Setting */ if (smesa->GlobalFlag & GFLAG_DSTBLEND) MMIO(REG_6326_3D_DstSrcBlendMode, prev->hwDstSrcBlend); if (smesa->GlobalFlag & GFLAG_CLIPPING) { MMIO(REG_6326_3D_ClipTopBottom, prev->clipTopBottom); MMIO(REG_6326_3D_ClipLeftRight, prev->clipLeftRight); } smesa->GlobalFlag &= ~GFLAG_RENDER_STATES; } void sis6326_update_texture_state (sisContextPtr smesa) { __GLSiSHardware *prev = &smesa->prev; mWait3DCmdQueue (55); if (smesa->clearTexCache || (smesa->GlobalFlag & GFLAG_TEXTUREADDRESS)) { MMIO(REG_6326_3D_TEnable, prev->hwCapEnable & ~S_ENABLE_TextureCache); MMIO(REG_6326_3D_TEnable, prev->hwCapEnable); smesa->clearTexCache = GL_FALSE; } /* Texture Setting */ if (smesa->GlobalFlag & CFLAG_TEXTURERESET) MMIO(REG_6326_3D_TextureSet, prev->texture[0].hwTextureSet); if (smesa->GlobalFlag & GFLAG_TEXTUREMIPMAP) MMIO(REG_6326_3D_TextureWidthHeight, prev->texture[0].hwTexWidthHeight); /* MMIO(REG_3D_TextureTransparencyColorHigh, prev->texture[0].hwTextureClrHigh); MMIO(REG_3D_TextureTransparencyColorLow, prev->texture[0].hwTextureClrLow); */ if (smesa->GlobalFlag & GFLAG_TEXBORDERCOLOR) MMIO(REG_6326_3D_TextureBorderColor, prev->texture[0].hwTextureBorderColor); if (smesa->GlobalFlag & GFLAG_TEXTUREADDRESS) { switch ((prev->texture[0].hwTextureSet & MASK_6326_TextureLevel) >> 8) { case 9: MMIO(REG_6326_3D_TextureAddress9, prev->texture[0].texOffset9); /* FALLTHROUGH */ case 8: MMIO(REG_6326_3D_TextureAddress8, prev->texture[0].texOffset8); MMIO(REG_6326_3D_TexturePitch89, prev->texture[0].texPitch89); /* FALLTHROUGH */ case 7: MMIO(REG_6326_3D_TextureAddress7, prev->texture[0].texOffset7); /* FALLTHROUGH */ case 6: MMIO(REG_6326_3D_TextureAddress6, prev->texture[0].texOffset6); MMIO(REG_6326_3D_TexturePitch67, prev->texture[0].texPitch67); /* FALLTHROUGH */ case 5: MMIO(REG_6326_3D_TextureAddress5, prev->texture[0].texOffset5); /* FALLTHROUGH */ case 4: MMIO(REG_6326_3D_TextureAddress4, prev->texture[0].texOffset4); MMIO(REG_6326_3D_TexturePitch45, prev->texture[0].texPitch45); /* FALLTHROUGH */ case 3: MMIO(REG_6326_3D_TextureAddress3, prev->texture[0].texOffset3); /* FALLTHROUGH */ case 2: MMIO(REG_6326_3D_TextureAddress2, prev->texture[0].texOffset2); MMIO(REG_6326_3D_TexturePitch23, prev->texture[0].texPitch23); /* FALLTHROUGH */ case 1: MMIO(REG_6326_3D_TextureAddress1, prev->texture[0].texOffset1); /* FALLTHROUGH */ case 0: MMIO(REG_6326_3D_TextureAddress0, prev->texture[0].texOffset0); MMIO(REG_6326_3D_TexturePitch01, prev->texture[0].texPitch01); break; } } /* texture environment */ if (smesa->GlobalFlag & GFLAG_TEXTUREENV) { MMIO(REG_6326_3D_TextureBlendSet, prev->hwTexBlendSet); } smesa->GlobalFlag &= ~GFLAG_TEXTURE_STATES; }