diff options
Diffstat (limited to 'src/mesa/drivers/dri/tdfx/tdfx_texman.c')
-rw-r--r-- | src/mesa/drivers/dri/tdfx/tdfx_texman.c | 970 |
1 files changed, 970 insertions, 0 deletions
diff --git a/src/mesa/drivers/dri/tdfx/tdfx_texman.c b/src/mesa/drivers/dri/tdfx/tdfx_texman.c new file mode 100644 index 0000000000..b34779c21f --- /dev/null +++ b/src/mesa/drivers/dri/tdfx/tdfx_texman.c @@ -0,0 +1,970 @@ +/* -*- mode: c; c-basic-offset: 3 -*- + * + * Copyright 2000 VA Linux Systems Inc., Fremont, California. + * + * 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 + * the rights to use, copy, modify, merge, publish, distribute, sublicense, + * 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 NONINFRINGEMENT. IN NO EVENT SHALL + * VA LINUX SYSTEMS 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. + */ +/* $XFree86: xc/lib/GL/mesa/src/drv/tdfx/tdfx_texman.c,v 1.5 2002/02/22 21:45:04 dawes Exp $ */ + +/* + * Original rewrite: + * Gareth Hughes <gareth@valinux.com>, 29 Sep - 1 Oct 2000 + * + * Authors: + * Gareth Hughes <gareth@valinux.com> + * Brian Paul <brianp@valinux.com> + * + */ + +#include "tdfx_context.h" +#include "tdfx_tex.h" +#include "tdfx_texman.h" + + +#define BAD_ADDRESS ((FxU32) -1) + + +#if 0 /* DEBUG use */ +/* + * Verify the consistancy of the texture memory manager. + * This involves: + * Traversing all texture objects and computing total memory used. + * Traverse the free block list and computing total memory free. + * Compare the total free and total used amounts to the total memory size. + * Make various assertions about the results. + */ +static void +VerifyFreeList(tdfxContextPtr fxMesa, FxU32 tmu) +{ + struct gl_shared_state *mesaShared = fxMesa->glCtx->Shared; + struct tdfxSharedState *shared = (struct tdfxSharedState *) mesaShared->DriverData; + tdfxMemRange *block; + int prevStart = -1, prevEnd = -1; + int totalFree = 0; + int numObj = 0, numRes = 0; + int totalUsed = 0; + + for (block = shared->tmFree[tmu]; block; block = block->next) { + assert( block->endAddr > 0 ); + assert( block->startAddr <= shared->totalTexMem[tmu] ); + assert( block->endAddr <= shared->totalTexMem[tmu] ); + assert( (int) block->startAddr > prevStart ); + assert( (int) block->startAddr >= prevEnd ); + prevStart = (int) block->startAddr; + prevEnd = (int) block->endAddr; + totalFree += (block->endAddr - block->startAddr); + } + assert(totalFree == shared->freeTexMem[tmu]); + + { + struct gl_texture_object *obj; + for (obj = mesaShared->TexObjectList; obj; obj = obj->Next) { + tdfxTexInfo *ti = TDFX_TEXTURE_DATA(obj); + numObj++; + if (ti) { + if (ti->isInTM) { + numRes++; + assert(ti->tm[0]); + if (ti->tm[tmu]) + totalUsed += (ti->tm[tmu]->endAddr - ti->tm[tmu]->startAddr); + } + else { + assert(!ti->tm[0]); + } + } + } + } + + printf("totalFree: %d totalUsed: %d totalMem: %d #objs=%d #res=%d\n", + shared->freeTexMem[tmu], totalUsed, shared->totalTexMem[tmu], + numObj, numRes); + + assert(totalUsed + totalFree == shared->totalTexMem[tmu]); +} + + +static void +dump_texmem(tdfxContextPtr fxMesa) +{ + struct gl_shared_state *mesaShared = fxMesa->glCtx->Shared; + struct tdfxSharedState *shared = (struct tdfxSharedState *) mesaShared->DriverData; + struct gl_texture_object *oldestObj, *obj, *lowestPriorityObj; + tdfxMemRange *r; + FxU32 prev; + + printf("DUMP Objects:\n"); + for (obj = mesaShared->TexObjectList; obj; obj = obj->Next) { + tdfxTexInfo *info = TDFX_TEXTURE_DATA(obj); + + if (info && info->isInTM) { + printf("Obj %8p: %4d info = %p\n", obj, obj->Name, info); + + printf(" isInTM=%d whichTMU=%d lastTimeUsed=%d\n", + info->isInTM, info->whichTMU, info->lastTimeUsed); + printf(" tm[0] = %p", info->tm[0]); + assert(info->tm[0]); + if (info->tm[0]) { + printf(" tm startAddr = %d endAddr = %d", + info->tm[0]->startAddr, + info->tm[0]->endAddr); + } + printf("\n"); + printf(" tm[1] = %p", info->tm[1]); + if (info->tm[1]) { + printf(" tm startAddr = %d endAddr = %d", + info->tm[1]->startAddr, + info->tm[1]->endAddr); + } + printf("\n"); + } + } + + VerifyFreeList(fxMesa, 0); + VerifyFreeList(fxMesa, 1); + + printf("Free memory unit 0: %d bytes\n", shared->freeTexMem[0]); + prev = 0; + for (r = shared->tmFree[0]; r; r = r->next) { + printf("%8p: start %8d end %8d size %8d gap %8d\n", r, r->startAddr, r->endAddr, r->endAddr - r->startAddr, r->startAddr - prev); + prev = r->endAddr; + } + + printf("Free memory unit 1: %d bytes\n", shared->freeTexMem[1]); + prev = 0; + for (r = shared->tmFree[1]; r; r = r->next) { + printf("%8p: start %8d end %8d size %8d gap %8d\n", r, r->startAddr, r->endAddr, r->endAddr - r->startAddr, r->startAddr - prev); + prev = r->endAddr; + } + +} +#endif + + + +#ifdef TEXSANITY +static void +fubar(void) +{ +} + +/* + * Sanity Check + */ +static void +sanity(tdfxContextPtr fxMesa) +{ + tdfxMemRange *tmp, *prev, *pos; + + prev = 0; + tmp = fxMesa->tmFree[0]; + while (tmp) { + if (!tmp->startAddr && !tmp->endAddr) { + fprintf(stderr, "Textures fubar\n"); + fubar(); + } + if (tmp->startAddr >= tmp->endAddr) { + fprintf(stderr, "Node fubar\n"); + fubar(); + } + if (prev && (prev->startAddr >= tmp->startAddr || + prev->endAddr > tmp->startAddr)) { + fprintf(stderr, "Sorting fubar\n"); + fubar(); + } + prev = tmp; + tmp = tmp->next; + } + prev = 0; + tmp = fxMesa->tmFree[1]; + while (tmp) { + if (!tmp->startAddr && !tmp->endAddr) { + fprintf(stderr, "Textures fubar\n"); + fubar(); + } + if (tmp->startAddr >= tmp->endAddr) { + fprintf(stderr, "Node fubar\n"); + fubar(); + } + if (prev && (prev->startAddr >= tmp->startAddr || + prev->endAddr > tmp->startAddr)) { + fprintf(stderr, "Sorting fubar\n"); + fubar(); + } + prev = tmp; + tmp = tmp->next; + } +} +#endif + + + + + +/* + * Allocate and initialize a new MemRange struct. + * Try to allocate it from the pool of free MemRange nodes rather than malloc. + */ +static tdfxMemRange * +NewRangeNode(tdfxContextPtr fxMesa, FxU32 start, FxU32 end) +{ + struct gl_shared_state *mesaShared = fxMesa->glCtx->Shared; + struct tdfxSharedState *shared = (struct tdfxSharedState *) mesaShared->DriverData; + tdfxMemRange *result; + + _glthread_LOCK_MUTEX(mesaShared->Mutex); + if (shared && shared->tmPool) { + result = shared->tmPool; + shared->tmPool = shared->tmPool->next; + } + else { + result = MALLOC(sizeof(tdfxMemRange)); + + } + _glthread_UNLOCK_MUTEX(mesaShared->Mutex); + + if (!result) { + /*fprintf(stderr, "fxDriver: out of memory!\n");*/ + return NULL; + } + + result->startAddr = start; + result->endAddr = end; + result->next = NULL; + + return result; +} + + +/* + * Initialize texture memory. + * We take care of one or both TMU's here. + */ +void +tdfxTMInit(tdfxContextPtr fxMesa) +{ + if (!fxMesa->glCtx->Shared->DriverData) { + const char *extensions; + struct tdfxSharedState *shared = CALLOC_STRUCT(tdfxSharedState); + if (!shared) + return; + + LOCK_HARDWARE(fxMesa); + extensions = fxMesa->Glide.grGetString(GR_EXTENSION); + UNLOCK_HARDWARE(fxMesa); + if (strstr(extensions, "TEXUMA")) { + FxU32 start, end; + shared->umaTexMemory = GL_TRUE; + LOCK_HARDWARE(fxMesa); + fxMesa->Glide.grEnable(GR_TEXTURE_UMA_EXT); + start = fxMesa->Glide.grTexMinAddress(0); + end = fxMesa->Glide.grTexMaxAddress(0); + UNLOCK_HARDWARE(fxMesa); + shared->totalTexMem[0] = end - start; + shared->totalTexMem[1] = 0; + shared->freeTexMem[0] = end - start; + shared->freeTexMem[1] = 0; + shared->tmFree[0] = NewRangeNode(fxMesa, start, end); + shared->tmFree[1] = NULL; + /*printf("UMA tex memory: %d\n", (int) (end - start));*/ + } + else { + const int numTMUs = fxMesa->haveTwoTMUs ? 2 : 1; + int tmu; + shared->umaTexMemory = GL_FALSE; + LOCK_HARDWARE(fxMesa); + for (tmu = 0; tmu < numTMUs; tmu++) { + FxU32 start = fxMesa->Glide.grTexMinAddress(tmu); + FxU32 end = fxMesa->Glide.grTexMaxAddress(tmu); + shared->totalTexMem[tmu] = end - start; + shared->freeTexMem[tmu] = end - start; + shared->tmFree[tmu] = NewRangeNode(fxMesa, start, end); + /*printf("Split tex memory: %d\n", (int) (end - start));*/ + } + UNLOCK_HARDWARE(fxMesa); + } + + shared->tmPool = NULL; + fxMesa->glCtx->Shared->DriverData = shared; + /*printf("Texture memory init UMA: %d\n", shared->umaTexMemory);*/ + } +} + + +/* + * Clean-up texture memory before destroying context. + */ +void +tdfxTMClose(tdfxContextPtr fxMesa) +{ + if (fxMesa->glCtx->Shared->RefCount == 1 && fxMesa->driDrawable) { + /* refcount will soon go to zero, free our 3dfx stuff */ + struct tdfxSharedState *shared = (struct tdfxSharedState *) fxMesa->glCtx->Shared->DriverData; + + const int numTMUs = fxMesa->haveTwoTMUs ? 2 : 1; + int tmu; + tdfxMemRange *tmp, *next; + + /* Deallocate the pool of free tdfxMemRange nodes */ + tmp = shared->tmPool; + while (tmp) { + next = tmp->next; + FREE(tmp); + tmp = next; + } + + /* Delete the texture memory block tdfxMemRange nodes */ + for (tmu = 0; tmu < numTMUs; tmu++) { + tmp = shared->tmFree[tmu]; + while (tmp) { + next = tmp->next; + FREE(tmp); + tmp = next; + } + } + + FREE(shared); + fxMesa->glCtx->Shared->DriverData = NULL; + } +} + + + +/* + * Delete a tdfxMemRange struct. + * We keep a linked list of free/available tdfxMemRange structs to + * avoid extra malloc/free calls. + */ +#if 0 +static void +DeleteRangeNode_NoLock(struct TdfxSharedState *shared, tdfxMemRange *range) +{ + /* insert at head of list */ + range->next = shared->tmPool; + shared->tmPool = range; +} +#endif + +#define DELETE_RANGE_NODE(shared, range) \ + (range)->next = (shared)->tmPool; \ + (shared)->tmPool = (range) + + + +/* + * When we've run out of texture memory we have to throw out an + * existing texture to make room for the new one. This function + * determins the texture to throw out. + */ +static struct gl_texture_object * +FindOldestObject(tdfxContextPtr fxMesa, FxU32 tmu) +{ + const GLuint bindnumber = fxMesa->texBindNumber; + struct gl_texture_object *oldestObj, *obj, *lowestPriorityObj; + GLfloat lowestPriority; + GLuint oldestAge; + + oldestObj = NULL; + oldestAge = 0; + + lowestPriority = 1.0F; + lowestPriorityObj = NULL; + + for (obj = fxMesa->glCtx->Shared->TexObjectList; obj; obj = obj->Next) { + tdfxTexInfo *info = TDFX_TEXTURE_DATA(obj); + + if (info && info->isInTM && + ((info->whichTMU == tmu) || (info->whichTMU == TDFX_TMU_BOTH) || + (info->whichTMU == TDFX_TMU_SPLIT))) { + GLuint age, lasttime; + + assert(info->tm[0]); + lasttime = info->lastTimeUsed; + + if (lasttime > bindnumber) + age = bindnumber + (UINT_MAX - lasttime + 1); /* TO DO: check wrap around */ + else + age = bindnumber - lasttime; + + if (age >= oldestAge) { + oldestAge = age; + oldestObj = obj; + } + + /* examine priority */ + if (obj->Priority < lowestPriority) { + lowestPriority = obj->Priority; + lowestPriorityObj = obj; + } + } + } + + if (lowestPriority < 1.0) { + ASSERT(lowestPriorityObj); + /* + printf("discard %d pri=%f\n", lowestPriorityObj->Name, lowestPriority); + */ + return lowestPriorityObj; + } + else { + /* + printf("discard %d age=%d\n", oldestObj->Name, oldestAge); + */ + return oldestObj; + } +} + + +#if 0 +static void +FlushTexMemory(tdfxContextPtr fxMesa) +{ + struct gl_shared_state *mesaShared = fxMesa->glCtx->Shared; + struct tdfxSharedState *shared = (struct tdfxSharedState *) mesaShared->DriverData; + struct gl_texture_object *obj; + + for (obj = mesaShared->TexObjectList; obj; obj = obj->Next) { + if (obj->RefCount < 2) { + /* don't flush currently bound textures */ + tdfxTMMoveOutTM_NoLock(fxMesa, obj); + } + } +} +#endif + + +/* + * Find the address (offset?) at which we can store a new texture. + * <tmu> is the texture unit. + * <size> is the texture size in bytes. + */ +static FxU32 +FindStartAddr(tdfxContextPtr fxMesa, FxU32 tmu, FxU32 size) +{ + struct gl_shared_state *mesaShared = fxMesa->glCtx->Shared; + struct tdfxSharedState *shared = (struct tdfxSharedState *) mesaShared->DriverData; + tdfxMemRange *prev, *block; + FxU32 result; +#if 0 + int discardedCount = 0; +#define MAX_DISCARDS 10 +#endif + + if (shared->umaTexMemory) { + assert(tmu == TDFX_TMU0); + } + + _glthread_LOCK_MUTEX(mesaShared->Mutex); + while (1) { + prev = NULL; + block = shared->tmFree[tmu]; + while (block) { + if (block->endAddr - block->startAddr >= size) { + /* The texture will fit here */ + result = block->startAddr; + block->startAddr += size; + if (block->startAddr == block->endAddr) { + /* Remove this node since it's empty */ + if (prev) { + prev->next = block->next; + } + else { + shared->tmFree[tmu] = block->next; + } + DELETE_RANGE_NODE(shared, block); + } + shared->freeTexMem[tmu] -= size; + _glthread_UNLOCK_MUTEX(mesaShared->Mutex); + return result; + } + prev = block; + block = block->next; + } + /* We failed to find a block large enough to accomodate <size> bytes. + * Find the oldest texObject and free it. + */ +#if 0 + discardedCount++; + if (discardedCount > MAX_DISCARDS + 1) { + _mesa_problem(NULL, "%s: extreme texmem fragmentation", __FUNCTION__); + _glthread_UNLOCK_MUTEX(mesaShared->Mutex); + return BAD_ADDRESS; + } + else if (discardedCount > MAX_DISCARDS) { + /* texture memory is probably really fragmented, flush it */ + FlushTexMemory(fxMesa); + } + else +#endif + { + struct gl_texture_object *obj = FindOldestObject(fxMesa, tmu); + if (obj) { + tdfxTMMoveOutTM_NoLock(fxMesa, obj); + fxMesa->stats.texSwaps++; + } + else { + _mesa_problem(NULL, "%s: extreme texmem fragmentation", __FUNCTION__); + _glthread_UNLOCK_MUTEX(mesaShared->Mutex); + return BAD_ADDRESS; + } + } + } + + /* never get here, but play it safe */ + _glthread_UNLOCK_MUTEX(mesaShared->Mutex); + return BAD_ADDRESS; +} + + +/* + * Remove the given tdfxMemRange node from hardware texture memory. + */ +static void +RemoveRange_NoLock(tdfxContextPtr fxMesa, FxU32 tmu, tdfxMemRange *range) +{ + struct gl_shared_state *mesaShared = fxMesa->glCtx->Shared; + struct tdfxSharedState *shared = (struct tdfxSharedState *) mesaShared->DriverData; + tdfxMemRange *block, *prev; + + if (shared->umaTexMemory) { + assert(tmu == TDFX_TMU0); + } + + if (!range) + return; + + if (range->startAddr == range->endAddr) { + DELETE_RANGE_NODE(shared, range); + return; + } + shared->freeTexMem[tmu] += range->endAddr - range->startAddr; + + /* find position in linked list to insert this tdfxMemRange node */ + prev = NULL; + block = shared->tmFree[tmu]; + while (block) { + assert(range->startAddr != block->startAddr); + if (range->startAddr > block->startAddr) { + prev = block; + block = block->next; + } + else { + break; + } + } + + /* Insert the free block, combine with adjacent blocks when possible */ + range->next = block; + if (block) { + if (range->endAddr == block->startAddr) { + /* Combine */ + block->startAddr = range->startAddr; + DELETE_RANGE_NODE(shared, range); + range = block; + } + } + if (prev) { + if (prev->endAddr == range->startAddr) { + /* Combine */ + prev->endAddr = range->endAddr; + prev->next = range->next; + DELETE_RANGE_NODE(shared, range); + } + else { + prev->next = range; + } + } + else { + shared->tmFree[tmu] = range; + } +} + + +#if 0 /* NOT USED */ +static void +RemoveRange(tdfxContextPtr fxMesa, FxU32 tmu, tdfxMemRange *range) +{ + struct gl_shared_state *mesaShared = fxMesa->glCtx->Shared; + _glthread_LOCK_MUTEX(mesaShared->Mutex); + RemoveRange_NoLock(fxMesa, tmu, range); + _glthread_UNLOCK_MUTEX(mesaShared->Mutex); +} +#endif + + +/* + * Allocate space for a texture image. + * <tmu> is the texture unit + * <texmemsize> is the number of bytes to allocate + */ +static tdfxMemRange * +AllocTexMem(tdfxContextPtr fxMesa, FxU32 tmu, FxU32 texmemsize) +{ + FxU32 startAddr; + startAddr = FindStartAddr(fxMesa, tmu, texmemsize); + if (startAddr == BAD_ADDRESS) { + _mesa_problem(fxMesa->glCtx, "%s returned NULL! tmu=%d texmemsize=%d", + __FUNCTION__, (int) tmu, (int) texmemsize); + return NULL; + } + else { + tdfxMemRange *range; + range = NewRangeNode(fxMesa, startAddr, startAddr + texmemsize); + return range; + } +} + + +/* + * Download (copy) the given texture data (all mipmap levels) into the + * Voodoo's texture memory. + * The texture memory must have already been allocated. + */ +void +tdfxTMDownloadTexture(tdfxContextPtr fxMesa, struct gl_texture_object *tObj) +{ + tdfxTexInfo *ti; + GLint l; + FxU32 targetTMU; + + assert(tObj); + ti = TDFX_TEXTURE_DATA(tObj); + assert(ti); + targetTMU = ti->whichTMU; + + switch (targetTMU) { + case TDFX_TMU0: + case TDFX_TMU1: + if (ti->tm[targetTMU]) { + for (l = ti->minLevel; l <= ti->maxLevel + && tObj->Image[l]->Data; l++) { + GrLOD_t glideLod = ti->info.largeLodLog2 - l + tObj->BaseLevel; + fxMesa->Glide.grTexDownloadMipMapLevel(targetTMU, + ti->tm[targetTMU]->startAddr, + glideLod, + ti->info.largeLodLog2, + ti->info.aspectRatioLog2, + ti->info.format, + GR_MIPMAPLEVELMASK_BOTH, + tObj->Image[l]->Data); + } + } + break; + case TDFX_TMU_SPLIT: + if (ti->tm[TDFX_TMU0] && ti->tm[TDFX_TMU1]) { + for (l = ti->minLevel; l <= ti->maxLevel + && tObj->Image[l]->Data; l++) { + GrLOD_t glideLod = ti->info.largeLodLog2 - l + tObj->BaseLevel; + fxMesa->Glide.grTexDownloadMipMapLevel(GR_TMU0, + ti->tm[TDFX_TMU0]->startAddr, + glideLod, + ti->info.largeLodLog2, + ti->info.aspectRatioLog2, + ti->info.format, + GR_MIPMAPLEVELMASK_ODD, + tObj->Image[l]->Data); + + fxMesa->Glide.grTexDownloadMipMapLevel(GR_TMU1, + ti->tm[TDFX_TMU1]->startAddr, + glideLod, + ti->info.largeLodLog2, + ti->info.aspectRatioLog2, + ti->info.format, + GR_MIPMAPLEVELMASK_EVEN, + tObj->Image[l]->Data); + } + } + break; + case TDFX_TMU_BOTH: + if (ti->tm[TDFX_TMU0] && ti->tm[TDFX_TMU1]) { + for (l = ti->minLevel; l <= ti->maxLevel + && tObj->Image[l]->Data; l++) { + GrLOD_t glideLod = ti->info.largeLodLog2 - l + tObj->BaseLevel; + fxMesa->Glide.grTexDownloadMipMapLevel(GR_TMU0, + ti->tm[TDFX_TMU0]->startAddr, + glideLod, + ti->info.largeLodLog2, + ti->info.aspectRatioLog2, + ti->info.format, + GR_MIPMAPLEVELMASK_BOTH, + tObj->Image[l]->Data); + + fxMesa->Glide.grTexDownloadMipMapLevel(GR_TMU1, + ti->tm[TDFX_TMU1]->startAddr, + glideLod, + ti->info.largeLodLog2, + ti->info.aspectRatioLog2, + ti->info.format, + GR_MIPMAPLEVELMASK_BOTH, + tObj->Image[l]->Data); + } + } + break; + default: + _mesa_problem(NULL, "%s: bad tmu (%d)", __FUNCTION__, (int)targetTMU); + return; + } +} + + +void +tdfxTMReloadMipMapLevel(GLcontext *ctx, struct gl_texture_object *tObj, + GLint level) +{ + tdfxContextPtr fxMesa = TDFX_CONTEXT(ctx); + tdfxTexInfo *ti = TDFX_TEXTURE_DATA(tObj); + GrLOD_t glideLod; + FxU32 tmu; + + tmu = ti->whichTMU; + glideLod = ti->info.largeLodLog2 - level + tObj->BaseLevel; + ASSERT(ti->isInTM); + + LOCK_HARDWARE(fxMesa); + + switch (tmu) { + case TDFX_TMU0: + case TDFX_TMU1: + fxMesa->Glide.grTexDownloadMipMapLevel(tmu, + ti->tm[tmu]->startAddr, + glideLod, + ti->info.largeLodLog2, + ti->info.aspectRatioLog2, + ti->info.format, + GR_MIPMAPLEVELMASK_BOTH, + tObj->Image[level]->Data); + break; + case TDFX_TMU_SPLIT: + fxMesa->Glide.grTexDownloadMipMapLevel(GR_TMU0, + ti->tm[GR_TMU0]->startAddr, + glideLod, + ti->info.largeLodLog2, + ti->info.aspectRatioLog2, + ti->info.format, + GR_MIPMAPLEVELMASK_ODD, + tObj->Image[level]->Data); + + fxMesa->Glide.grTexDownloadMipMapLevel(GR_TMU1, + ti->tm[GR_TMU1]->startAddr, + glideLod, + ti->info.largeLodLog2, + ti->info.aspectRatioLog2, + ti->info.format, + GR_MIPMAPLEVELMASK_EVEN, + tObj->Image[level]->Data); + break; + case TDFX_TMU_BOTH: + fxMesa->Glide.grTexDownloadMipMapLevel(GR_TMU0, + ti->tm[GR_TMU0]->startAddr, + glideLod, + ti->info.largeLodLog2, + ti->info.aspectRatioLog2, + ti->info.format, + GR_MIPMAPLEVELMASK_BOTH, + tObj->Image[level]->Data); + + fxMesa->Glide.grTexDownloadMipMapLevel(GR_TMU1, + ti->tm[GR_TMU1]->startAddr, + glideLod, + ti->info.largeLodLog2, + ti->info.aspectRatioLog2, + ti->info.format, + GR_MIPMAPLEVELMASK_BOTH, + tObj->Image[level]->Data); + break; + + default: + _mesa_problem(ctx, "%s: bad tmu (%d)", __FUNCTION__, (int)tmu); + break; + } + UNLOCK_HARDWARE(fxMesa); +} + + +/* + * Allocate space for the given texture in texture memory then + * download (copy) it into that space. + */ +void +tdfxTMMoveInTM_NoLock( tdfxContextPtr fxMesa, struct gl_texture_object *tObj, + FxU32 targetTMU ) +{ + tdfxTexInfo *ti = TDFX_TEXTURE_DATA(tObj); + FxU32 texmemsize; + + fxMesa->stats.reqTexUpload++; + + if (ti->isInTM) { + if (ti->whichTMU == targetTMU) + return; + if (targetTMU == TDFX_TMU_SPLIT || ti->whichTMU == TDFX_TMU_SPLIT) { + tdfxTMMoveOutTM_NoLock(fxMesa, tObj); + } + else { + if (ti->whichTMU == TDFX_TMU_BOTH) + return; + targetTMU = TDFX_TMU_BOTH; + } + } + + ti->whichTMU = targetTMU; + + switch (targetTMU) { + case TDFX_TMU0: + case TDFX_TMU1: + texmemsize = fxMesa->Glide.grTexTextureMemRequired(GR_MIPMAPLEVELMASK_BOTH, + &(ti->info)); + ti->tm[targetTMU] = AllocTexMem(fxMesa, targetTMU, texmemsize); + break; + case TDFX_TMU_SPLIT: + texmemsize = fxMesa->Glide.grTexTextureMemRequired(GR_MIPMAPLEVELMASK_ODD, + &(ti->info)); + ti->tm[TDFX_TMU0] = AllocTexMem(fxMesa, TDFX_TMU0, texmemsize); + if (ti->tm[TDFX_TMU0]) + fxMesa->stats.memTexUpload += texmemsize; + + texmemsize = fxMesa->Glide.grTexTextureMemRequired(GR_MIPMAPLEVELMASK_EVEN, + &(ti->info)); + ti->tm[TDFX_TMU1] = AllocTexMem(fxMesa, TDFX_TMU1, texmemsize); + break; + case TDFX_TMU_BOTH: + texmemsize = fxMesa->Glide.grTexTextureMemRequired(GR_MIPMAPLEVELMASK_BOTH, + &(ti->info)); + ti->tm[TDFX_TMU0] = AllocTexMem(fxMesa, TDFX_TMU0, texmemsize); + if (ti->tm[TDFX_TMU0]) + fxMesa->stats.memTexUpload += texmemsize; + + texmemsize = fxMesa->Glide.grTexTextureMemRequired(GR_MIPMAPLEVELMASK_BOTH, + &(ti->info)); + ti->tm[TDFX_TMU1] = AllocTexMem(fxMesa, TDFX_TMU1, texmemsize); + break; + default: + _mesa_problem(NULL, "%s: bad tmu (%d)", __FUNCTION__, (int)targetTMU); + return; + } + + ti->reloadImages = GL_TRUE; + ti->isInTM = GL_TRUE; + + fxMesa->stats.texUpload++; +} + + +/* + * Move the given texture out of hardware texture memory. + * This deallocates the texture's memory space. + */ +void +tdfxTMMoveOutTM_NoLock( tdfxContextPtr fxMesa, struct gl_texture_object *tObj ) +{ + struct gl_shared_state *mesaShared = fxMesa->glCtx->Shared; + struct tdfxSharedState *shared = (struct tdfxSharedState *) mesaShared->DriverData; + tdfxTexInfo *ti = TDFX_TEXTURE_DATA(tObj); + + if (MESA_VERBOSE & VERBOSE_DRIVER) { + fprintf(stderr, "fxmesa: %s(%p (%d))\n", __FUNCTION__, tObj, tObj->Name); + } + + /* + VerifyFreeList(fxMesa, 0); + VerifyFreeList(fxMesa, 1); + */ + + if (!ti || !ti->isInTM) + return; + + switch (ti->whichTMU) { + case TDFX_TMU0: + case TDFX_TMU1: + RemoveRange_NoLock(fxMesa, ti->whichTMU, ti->tm[ti->whichTMU]); + break; + case TDFX_TMU_SPLIT: + case TDFX_TMU_BOTH: + assert(!shared->umaTexMemory); + RemoveRange_NoLock(fxMesa, TDFX_TMU0, ti->tm[TDFX_TMU0]); + RemoveRange_NoLock(fxMesa, TDFX_TMU1, ti->tm[TDFX_TMU1]); + break; + default: + _mesa_problem(NULL, "%s: bad tmu (%d)", __FUNCTION__, (int)ti->whichTMU); + return; + } + + ti->isInTM = GL_FALSE; + ti->tm[0] = NULL; + ti->tm[1] = NULL; + ti->whichTMU = TDFX_TMU_NONE; + + /* + VerifyFreeList(fxMesa, 0); + VerifyFreeList(fxMesa, 1); + */ +} + + +/* + * Called via glDeleteTexture to delete a texture object. + */ +void +tdfxTMFreeTexture(tdfxContextPtr fxMesa, struct gl_texture_object *tObj) +{ + tdfxTexInfo *ti = TDFX_TEXTURE_DATA(tObj); + if (ti) { + tdfxTMMoveOutTM(fxMesa, tObj); + FREE(ti); + tObj->DriverData = NULL; + } + /* + VerifyFreeList(fxMesa, 0); + VerifyFreeList(fxMesa, 1); + */ +} + + + +/* + * After a context switch this function will be called to restore + * texture memory for the new context. + */ +void tdfxTMRestoreTextures_NoLock( tdfxContextPtr fxMesa ) +{ + GLcontext *ctx = fxMesa->glCtx; + struct gl_texture_object *tObj; + int i; + + for ( tObj = ctx->Shared->TexObjectList ; tObj ; tObj = tObj->Next ) { + tdfxTexInfo *ti = TDFX_TEXTURE_DATA( tObj ); + if ( ti && ti->isInTM ) { + for ( i = 0 ; i < MAX_TEXTURE_UNITS ; i++ ) { + if ( ctx->Texture.Unit[i]._Current == tObj ) { + tdfxTMDownloadTexture( fxMesa, tObj ); + break; + } + } + if ( i == MAX_TEXTURE_UNITS ) { + tdfxTMMoveOutTM_NoLock( fxMesa, tObj ); + } + } + } + /* + VerifyFreeList(fxMesa, 0); + VerifyFreeList(fxMesa, 1); + */ +} |