void crStateMultisampleSwitch(CRMultisampleBits *b, CRbitvalue *bitID,
CRContext *fromCtx, CRContext *toCtx)
{
CRMultisampleState *from = &(fromCtx->multisample);
CRMultisampleState *to = &(toCtx->multisample);
unsigned int j;
CRbitvalue nbitID[CR_MAX_BITARRAY];
for (j=0;j<CR_MAX_BITARRAY;j++)
nbitID[j] = ~bitID[j];
if (CHECKDIRTY(b->enable, bitID))
{
glAble able[2];
able[0] = diff_api.Disable;
able[1] = diff_api.Enable;
if (from->enabled != to->enabled)
{
able[to->enabled](GL_MULTISAMPLE_ARB);
FILLDIRTY(b->enable);
FILLDIRTY(b->dirty);
}
if (from->sampleAlphaToCoverage != to->sampleAlphaToCoverage)
{
able[to->sampleAlphaToCoverage](GL_SAMPLE_ALPHA_TO_COVERAGE_ARB);
FILLDIRTY(b->enable);
FILLDIRTY(b->dirty);
}
if (from->sampleAlphaToOne != to->sampleAlphaToOne)
{
able[to->sampleAlphaToOne](GL_SAMPLE_ALPHA_TO_ONE_ARB);
FILLDIRTY(b->enable);
FILLDIRTY(b->dirty);
}
if (from->sampleCoverage != to->sampleCoverage)
{
able[to->sampleCoverage](GL_SAMPLE_COVERAGE_ARB);
FILLDIRTY(b->enable);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->enable, nbitID);
}
if (CHECKDIRTY(b->sampleCoverageValue, bitID))
{
if (from->sampleCoverageValue != to->sampleCoverageValue ||
from->sampleCoverageInvert != to->sampleCoverageInvert)
{
diff_api.SampleCoverageARB (to->sampleCoverageValue,
to->sampleCoverageInvert);
FILLDIRTY(b->sampleCoverageValue);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->sampleCoverageValue, nbitID);
}
CLEARDIRTY(b->dirty, nbitID);
}
void crStateLineSwitch(CRLineBits *b, CRbitvalue *bitID,
CRContext *fromCtx, CRContext *toCtx)
{
CRLineState *from = &(fromCtx->line);
CRLineState *to = &(toCtx->line);
unsigned int j, i;
CRbitvalue nbitID[CR_MAX_BITARRAY];
for (j=0;j<CR_MAX_BITARRAY;j++)
nbitID[j] = ~bitID[j];
i = 0; /* silence compiler */
if (CHECKDIRTY(b->enable, bitID))
{
glAble able[2];
able[0] = diff_api.Disable;
able[1] = diff_api.Enable;
if (from->lineSmooth != to->lineSmooth)
{
able[to->lineSmooth](GL_LINE_SMOOTH);
FILLDIRTY(b->enable);
FILLDIRTY(b->dirty);
}
if (from->lineStipple != to->lineStipple)
{
able[to->lineStipple](GL_LINE_STIPPLE);
FILLDIRTY(b->enable);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->enable, nbitID);
}
if (CHECKDIRTY(b->width, bitID))
{
if (from->width != to->width)
{
diff_api.LineWidth (to->width);
FILLDIRTY(b->width);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->width, nbitID);
}
if (CHECKDIRTY(b->stipple, bitID))
{
if (from->repeat != to->repeat ||
from->pattern != to->pattern)
{
diff_api.LineStipple (to->repeat,
to->pattern);
FILLDIRTY(b->stipple);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->stipple, nbitID);
}
CLEARDIRTY(b->dirty, nbitID);
}
void crStateViewportSwitch(CRViewportBits *b, CRbitvalue *bitID,
CRContext *fromCtx, CRContext *toCtx)
{
CRViewportState *from = &(fromCtx->viewport);
CRViewportState *to = &(toCtx->viewport);
unsigned int j, i;
CRbitvalue nbitID[CR_MAX_BITARRAY];
for (j=0;j<CR_MAX_BITARRAY;j++)
nbitID[j] = ~bitID[j];
i = 0; /* silence compiler */
if (CHECKDIRTY(b->enable, bitID))
{
glAble able[2];
able[0] = diff_api.Disable;
able[1] = diff_api.Enable;
if (from->scissorTest != to->scissorTest)
{
able[to->scissorTest](GL_SCISSOR_TEST);
FILLDIRTY(b->enable);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->enable, nbitID);
}
if (CHECKDIRTY(b->s_dims, bitID))
{
if (from->scissorX != to->scissorX ||
from->scissorY != to->scissorY ||
from->scissorW != to->scissorW ||
from->scissorH != to->scissorH)
{
diff_api.Scissor (to->scissorX,
to->scissorY,
to->scissorW,
to->scissorH);
FILLDIRTY(b->s_dims);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->s_dims, nbitID);
}
if (CHECKDIRTY(b->v_dims, bitID))
{
if (from->viewportX != to->viewportX ||
from->viewportY != to->viewportY ||
from->viewportW != to->viewportW ||
from->viewportH != to->viewportH)
{
diff_api.Viewport (to->viewportX,
to->viewportY,
to->viewportW,
to->viewportH);
FILLDIRTY(b->v_dims);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->v_dims, nbitID);
}
if (CHECKDIRTY(b->depth, bitID))
{
if (from->nearClip != to->nearClip ||
from->farClip != to->farClip)
{
diff_api.DepthRange (to->nearClip,
to->farClip);
FILLDIRTY(b->depth);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->depth, nbitID);
}
CLEARDIRTY(b->dirty, nbitID);
}
void
crStateClientSwitch(CRClientBits *cb, CRbitvalue *bitID,
CRContext *fromCtx, CRContext *toCtx)
{
const CRClientState *from = &(fromCtx->client);
const CRClientState *to = &(toCtx->client);
int i;
if (CHECKDIRTY(cb->clientPointer, bitID)) {
/* one or more vertex pointers is dirty */
if (CHECKDIRTY(cb->v, bitID)) {
if (from->array.v.size != to->array.v.size ||
from->array.v.type != to->array.v.type ||
from->array.v.stride != to->array.v.stride ||
from->array.v.buffer != to->array.v.buffer) {
diff_api.VertexPointer(to->array.v.size, to->array.v.type,
to->array.v.stride, to->array.v.p);
FILLDIRTY(cb->v);
FILLDIRTY(cb->clientPointer);
}
CLEARDIRTY2(cb->v, bitID);
}
/* normal */
if (CHECKDIRTY(cb->n, bitID)) {
if (from->array.n.type != to->array.n.type ||
from->array.n.stride != to->array.n.stride ||
from->array.n.buffer != to->array.n.buffer) {
diff_api.NormalPointer(to->array.n.type,
to->array.n.stride, to->array.n.p);
FILLDIRTY(cb->n);
FILLDIRTY(cb->clientPointer);
}
CLEARDIRTY2(cb->n, bitID);
}
/* color */
if (CHECKDIRTY(cb->c, bitID)) {
if (from->array.c.size != to->array.c.size ||
from->array.c.type != to->array.c.type ||
from->array.c.stride != to->array.c.stride ||
from->array.c.buffer != to->array.c.buffer) {
diff_api.ColorPointer(to->array.c.size, to->array.c.type,
to->array.c.stride, to->array.c.p);
FILLDIRTY(cb->c);
FILLDIRTY(cb->clientPointer);
}
CLEARDIRTY2(cb->c, bitID);
}
/* index */
if (CHECKDIRTY(cb->i, bitID)) {
if (from->array.i.type != to->array.i.type ||
from->array.i.stride != to->array.i.stride ||
from->array.i.buffer != to->array.i.buffer) {
diff_api.IndexPointer(to->array.i.type,
to->array.i.stride, to->array.i.p);
FILLDIRTY(cb->i);
FILLDIRTY(cb->clientPointer);
}
CLEARDIRTY2(cb->i, bitID);
}
/* texcoords */
for (i = 0; (unsigned int)i < toCtx->limits.maxTextureUnits; i++) {
if (CHECKDIRTY(cb->t[i], bitID)) {
if (from->array.t[i].size != to->array.t[i].size ||
from->array.t[i].type != to->array.t[i].type ||
from->array.t[i].stride != to->array.t[i].stride ||
from->array.t[i].buffer != to->array.t[i].buffer) {
diff_api.ClientActiveTextureARB(GL_TEXTURE0_ARB + i);
diff_api.TexCoordPointer(to->array.t[i].size, to->array.t[i].type,
to->array.t[i].stride, to->array.t[i].p);
FILLDIRTY(cb->t[i]);
FILLDIRTY(cb->clientPointer);
}
CLEARDIRTY2(cb->t[i], bitID);
}
}
/* edge flag */
if (CHECKDIRTY(cb->e, bitID)) {
if (from->array.e.stride != to->array.e.stride ||
from->array.e.buffer != to->array.e.buffer) {
diff_api.EdgeFlagPointer(to->array.e.stride, to->array.e.p);
FILLDIRTY(cb->e);
FILLDIRTY(cb->clientPointer);
}
CLEARDIRTY2(cb->e, bitID);
}
/* secondary color */
if (CHECKDIRTY(cb->s, bitID)) {
if (from->array.s.size != to->array.s.size ||
from->array.s.type != to->array.s.type ||
from->array.s.stride != to->array.s.stride ||
from->array.s.buffer != to->array.s.buffer) {
diff_api.SecondaryColorPointerEXT(to->array.s.size, to->array.s.type,
to->array.s.stride, to->array.s.p);
FILLDIRTY(cb->s);
FILLDIRTY(cb->clientPointer);
}
CLEARDIRTY2(cb->s, bitID);
}
/* fog coord */
if (CHECKDIRTY(cb->f, bitID)) {
if (from->array.f.type != to->array.f.type ||
from->array.f.stride != to->array.f.stride ||
from->array.f.buffer != to->array.f.buffer) {
diff_api.FogCoordPointerEXT(to->array.f.type,
to->array.f.stride, to->array.f.p);
FILLDIRTY(cb->f);
FILLDIRTY(cb->clientPointer);
}
CLEARDIRTY2(cb->f, bitID);
}
#if defined(CR_NV_vertex_program) || defined(CR_ARB_vertex_program)
/* vertex attributes */
for (i = 0; (unsigned int)i < toCtx->limits.maxVertexProgramAttribs; i++) {
if (CHECKDIRTY(cb->a[i], bitID)) {
if (from->array.a[i].size != to->array.a[i].size ||
from->array.a[i].type != to->array.a[i].type ||
from->array.a[i].stride != to->array.a[i].stride ||
from->array.a[i].normalized != to->array.a[i].normalized ||
from->array.a[i].buffer != to->array.a[i].buffer) {
diff_api.VertexAttribPointerARB(i, to->array.a[i].size,
to->array.a[i].type,
to->array.a[i].normalized,
to->array.a[i].stride,
to->array.a[i].p);
FILLDIRTY(cb->a[i]);
FILLDIRTY(cb->clientPointer);
}
CLEARDIRTY2(cb->a[i], bitID);
}
}
#endif
}
if (CHECKDIRTY(cb->enableClientState, bitID)) {
/* update vertex array enable/disable flags */
glAble able[2];
able[0] = diff_api.Disable;
able[1] = diff_api.Enable;
if (from->array.v.enabled != to->array.v.enabled) {
able[to->array.v.enabled](GL_VERTEX_ARRAY);
FILLDIRTY(cb->enableClientState);
}
if (from->array.n.enabled != to->array.n.enabled) {
able[to->array.n.enabled](GL_NORMAL_ARRAY);
FILLDIRTY(cb->enableClientState);
}
if (from->array.c.enabled != to->array.c.enabled) {
able[to->array.c.enabled](GL_COLOR_ARRAY);
FILLDIRTY(cb->enableClientState);
}
if (from->array.i.enabled != to->array.i.enabled) {
able[to->array.i.enabled](GL_INDEX_ARRAY);
FILLDIRTY(cb->enableClientState);
}
for (i = 0; (unsigned int)i < toCtx->limits.maxTextureUnits; i++) {
if (from->array.t[i].enabled != to->array.t[i].enabled) {
diff_api.ClientActiveTextureARB(GL_TEXTURE0_ARB + i);
able[to->array.t[i].enabled](GL_TEXTURE_COORD_ARRAY);
FILLDIRTY(cb->enableClientState);
}
}
if (from->array.e.enabled != to->array.e.enabled) {
able[to->array.e.enabled](GL_EDGE_FLAG_ARRAY);
FILLDIRTY(cb->enableClientState);
}
if (from->array.s.enabled != to->array.s.enabled) {
able[to->array.s.enabled](GL_SECONDARY_COLOR_ARRAY_EXT);
FILLDIRTY(cb->enableClientState);
}
if (from->array.f.enabled != to->array.f.enabled) {
able[to->array.f.enabled](GL_FOG_COORDINATE_ARRAY_EXT);
FILLDIRTY(cb->enableClientState);
}
for (i = 0; (unsigned int)i < toCtx->limits.maxVertexProgramAttribs; i++) {
if (from->array.a[i].enabled != to->array.a[i].enabled) {
able[to->array.a[i].enabled](GL_VERTEX_ATTRIB_ARRAY0_NV + i);
FILLDIRTY(cb->enableClientState);
}
}
CLEARDIRTY2(cb->enableClientState, bitID);
}
}
static void crStateBufferObjectIntCmp(CRBufferObjectBits *bb, CRbitvalue *bitID,
CRContext *fromCtx, CRContext *toCtx,
GLboolean bSwitch)
{
CRBufferObjectState *from = &(fromCtx->bufferobject);
const CRBufferObjectState *to = &(toCtx->bufferobject);
/* ARRAY_BUFFER */
if (CHECKDIRTY(bb->arrayBinding, bitID))
{
if (from->arrayBuffer != to->arrayBuffer)
{
GLuint bufferID = to->arrayBuffer ? to->arrayBuffer->hwid : 0;
diff_api.BindBufferARB(GL_ARRAY_BUFFER_ARB, bufferID);
if (bSwitch)
{
FILLDIRTY(bb->arrayBinding);
FILLDIRTY(bb->dirty);
}
else
{
CLEARDIRTY2(bb->arrayBinding, bitID);
from->arrayBuffer = to->arrayBuffer;
}
}
if (bSwitch) CLEARDIRTY2(bb->arrayBinding, bitID);
}
if (to->arrayBuffer && CHECKDIRTY(to->arrayBuffer->dirty, bitID))
{
/* update array buffer data */
CRBufferObject *bufObj = to->arrayBuffer;
CRASSERT(bufObj);
if (bufObj->dirtyStart == 0 && bufObj->dirtyLength == (int) bufObj->size)
{
/* update whole buffer */
diff_api.BufferDataARB(GL_ARRAY_BUFFER_ARB, bufObj->size,
bufObj->data, bufObj->usage);
}
else
{
/* update sub buffer */
diff_api.BufferSubDataARB(GL_ARRAY_BUFFER_ARB,
bufObj->dirtyStart, bufObj->dirtyLength,
(char *) bufObj->data + bufObj->dirtyStart);
}
if (bSwitch) FILLDIRTY(bufObj->dirty);
CLEARDIRTY2(bufObj->dirty, bitID);
}
/* ELEMENTS_BUFFER */
if (CHECKDIRTY(bb->elementsBinding, bitID))
{
if (from->elementsBuffer != to->elementsBuffer)
{
GLuint bufferID = to->elementsBuffer ? to->elementsBuffer->hwid : 0;
diff_api.BindBufferARB(GL_ELEMENT_ARRAY_BUFFER_ARB, bufferID);
if (bSwitch)
{
FILLDIRTY(bb->elementsBinding);
FILLDIRTY(bb->dirty);
}
else
{
CLEARDIRTY2(bb->elementsBinding, bitID);
from->elementsBuffer = to->elementsBuffer;
}
}
if (bSwitch) CLEARDIRTY2(bb->elementsBinding, bitID);
}
if (to->elementsBuffer && CHECKDIRTY(to->elementsBuffer->dirty, bitID))
{
/* update array buffer data */
CRBufferObject *bufObj = to->elementsBuffer;
CRASSERT(bufObj);
if (bufObj->dirtyStart == 0 && bufObj->dirtyLength == (int) bufObj->size)
{
/* update whole buffer */
diff_api.BufferDataARB(GL_ELEMENT_ARRAY_BUFFER_ARB, bufObj->size,
bufObj->data, bufObj->usage);
}
else
{
/* update sub buffer */
diff_api.BufferSubDataARB(GL_ELEMENT_ARRAY_BUFFER_ARB,
bufObj->dirtyStart, bufObj->dirtyLength,
(char *) bufObj->data + bufObj->dirtyStart);
}
if (bSwitch) FILLDIRTY(bufObj->dirty);
CLEARDIRTY2(bufObj->dirty, bitID);
}
#ifdef CR_ARB_pixel_buffer_object
/* PIXEL_PACK_BUFFER */
if (CHECKDIRTY(bb->packBinding, bitID))
{
if (from->packBuffer != to->packBuffer)
{
GLuint bufferID = to->packBuffer ? to->packBuffer->hwid : 0;
diff_api.BindBufferARB(GL_PIXEL_PACK_BUFFER_ARB, bufferID);
if (bSwitch)
{
FILLDIRTY(bb->packBinding);
FILLDIRTY(bb->dirty);
}
else
{
CLEARDIRTY2(bb->packBinding, bitID);
from->packBuffer = to->packBuffer;
}
}
if (bSwitch) CLEARDIRTY2(bb->packBinding, bitID);
}
if (to->packBuffer && CHECKDIRTY(to->packBuffer->dirty, bitID))
{
/* update array buffer data */
CRBufferObject *bufObj = to->packBuffer;
CRASSERT(bufObj);
if (bufObj->dirtyStart == 0 && bufObj->dirtyLength == (int) bufObj->size)
{
/* update whole buffer */
diff_api.BufferDataARB(GL_PIXEL_PACK_BUFFER_ARB, bufObj->size,
bufObj->data, bufObj->usage);
}
else
{
/* update sub buffer */
diff_api.BufferSubDataARB(GL_PIXEL_PACK_BUFFER_ARB,
bufObj->dirtyStart, bufObj->dirtyLength,
(char *) bufObj->data + bufObj->dirtyStart);
}
if (bSwitch) FILLDIRTY(bufObj->dirty);
CLEARDIRTY2(bufObj->dirty, bitID);
}
/* PIXEL_UNPACK_BUFFER */
if (CHECKDIRTY(bb->unpackBinding, bitID))
{
if (from->unpackBuffer != to->unpackBuffer)
{
GLuint bufferID = to->unpackBuffer ? to->unpackBuffer->hwid : 0;
diff_api.BindBufferARB(GL_PIXEL_UNPACK_BUFFER_ARB, bufferID);
if (bSwitch)
{
FILLDIRTY(bb->unpackBinding);
FILLDIRTY(bb->dirty);
}
else
{
CLEARDIRTY2(bb->unpackBinding, bitID);
from->unpackBuffer = to->unpackBuffer;
}
}
if (bSwitch) CLEARDIRTY2(bb->unpackBinding, bitID);
}
if (to->unpackBuffer && CHECKDIRTY(to->unpackBuffer->dirty, bitID))
{
/* update array buffer data */
CRBufferObject *bufObj = to->unpackBuffer;
CRASSERT(bufObj);
if (bufObj->dirtyStart == 0 && bufObj->dirtyLength == (int) bufObj->size)
{
/* update whole buffer */
diff_api.BufferDataARB(GL_PIXEL_UNPACK_BUFFER_ARB, bufObj->size,
bufObj->data, bufObj->usage);
}
else
{
/* update sub buffer */
diff_api.BufferSubDataARB(GL_PIXEL_UNPACK_BUFFER_ARB,
bufObj->dirtyStart, bufObj->dirtyLength,
(char *) bufObj->data + bufObj->dirtyStart);
}
if (bSwitch) FILLDIRTY(bufObj->dirty);
CLEARDIRTY2(bufObj->dirty, bitID);
}
#endif /*ifdef CR_ARB_pixel_buffer_object*/
}
void crStatePointSwitch(CRPointBits *b, CRbitvalue *bitID,
CRContext *fromCtx, CRContext *toCtx)
{
PCRStateTracker pState = fromCtx->pStateTracker;
CRPointState *from = &(fromCtx->point);
CRPointState *to = &(toCtx->point);
unsigned int j, i;
GLboolean fEnabled;
CRbitvalue nbitID[CR_MAX_BITARRAY];
CRASSERT(fromCtx->pStateTracker == toCtx->pStateTracker);
for (j=0;j<CR_MAX_BITARRAY;j++)
nbitID[j] = ~bitID[j];
i = 0; /* silence compiler */
if (CHECKDIRTY(b->enableSmooth, bitID))
{
glAble able[2];
able[0] = pState->diff_api.Disable;
able[1] = pState->diff_api.Enable;
if (from->pointSmooth != to->pointSmooth)
{
able[to->pointSmooth](GL_POINT_SMOOTH);
FILLDIRTY(b->enableSmooth);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->enableSmooth, nbitID);
}
if (CHECKDIRTY(b->size, bitID))
{
if (from->pointSize != to->pointSize)
{
pState->diff_api.PointSize (to->pointSize);
FILLDIRTY(b->size);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->size, nbitID);
}
if (CHECKDIRTY(b->minSize, bitID))
{
if (from->minSize != to->minSize)
{
pState->diff_api.PointParameterfARB (GL_POINT_SIZE_MIN_ARB, to->minSize);
FILLDIRTY(b->minSize);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->minSize, nbitID);
}
if (CHECKDIRTY(b->maxSize, bitID))
{
if (from->maxSize != to->maxSize)
{
pState->diff_api.PointParameterfARB (GL_POINT_SIZE_MAX_ARB, to->maxSize);
FILLDIRTY(b->maxSize);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->maxSize, nbitID);
}
if (CHECKDIRTY(b->fadeThresholdSize, bitID))
{
if (from->fadeThresholdSize != to->fadeThresholdSize)
{
pState->diff_api.PointParameterfARB (GL_POINT_FADE_THRESHOLD_SIZE_ARB, to->fadeThresholdSize);
FILLDIRTY(b->fadeThresholdSize);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->fadeThresholdSize, nbitID);
}
if (CHECKDIRTY(b->spriteCoordOrigin, bitID))
{
if (from->spriteCoordOrigin != to->spriteCoordOrigin)
{
pState->diff_api.PointParameterfARB (GL_POINT_SPRITE_COORD_ORIGIN, to->spriteCoordOrigin);
FILLDIRTY(b->spriteCoordOrigin);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->spriteCoordOrigin, nbitID);
}
if (CHECKDIRTY(b->distanceAttenuation, bitID))
{
if (from->distanceAttenuation[0] != to->distanceAttenuation[0] || from->distanceAttenuation[1] != to->distanceAttenuation[1] || from->distanceAttenuation[2] != to->distanceAttenuation[2]) {
pState->diff_api.PointParameterfvARB (GL_POINT_DISTANCE_ATTENUATION_ARB, to->distanceAttenuation);
FILLDIRTY(b->distanceAttenuation);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->distanceAttenuation, nbitID);
}
fEnabled = from->pointSprite;
{
unsigned int activeUnit = (unsigned int) -1;
for (i = 0; i < CR_MAX_TEXTURE_UNITS; i++) {
if (CHECKDIRTY(b->coordReplacement[i], bitID))
{
if (!fEnabled)
{
pState->diff_api.Enable(GL_POINT_SPRITE_ARB);
fEnabled = GL_TRUE;
}
#if 0
/*don't set coord replacement, it will be set just before drawing points when necessary,
* to work around gpu driver bugs
* See crServerDispatch[Begin|End|Draw*] */
GLint replacement = to->coordReplacement[i];
if (activeUnit != i) {
diff_api.ActiveTextureARB(i + GL_TEXTURE0_ARB );
activeUnit = i;
}
diff_api.TexEnviv(GL_POINT_SPRITE_ARB, GL_COORD_REPLACE_ARB, &replacement);
#endif
CLEARDIRTY(b->coordReplacement[i], nbitID);
}
}
if (activeUnit != toCtx->texture.curTextureUnit)
pState->diff_api.ActiveTextureARB(GL_TEXTURE0 + toCtx->texture.curTextureUnit);
}
if (CHECKDIRTY(b->enableSprite, bitID))
{
glAble able[2];
able[0] = pState->diff_api.Disable;
able[1] = pState->diff_api.Enable;
if (fEnabled != to->pointSprite)
{
able[to->pointSprite](GL_POINT_SPRITE_ARB);
FILLDIRTY(b->enableSprite);
FILLDIRTY(b->dirty);
}
CLEARDIRTY(b->enableSprite, nbitID);
}
else if (fEnabled != to->pointSprite)
{
glAble able[2];
able[0] = pState->diff_api.Disable;
able[1] = pState->diff_api.Enable;
able[to->pointSprite](GL_POINT_SPRITE_ARB);
}
CLEARDIRTY(b->dirty, nbitID);
}
void crStatePointDiff(CRPointBits *b, CRbitvalue *bitID,
CRContext *fromCtx, CRContext *toCtx)
{
PCRStateTracker pState = fromCtx->pStateTracker;
CRPointState *from = &(fromCtx->point);
CRPointState *to = &(toCtx->point);
unsigned int j, i;
CRbitvalue nbitID[CR_MAX_BITARRAY];
Assert(0); /** @todo Is this never called? */
CRASSERT(fromCtx->pStateTracker == toCtx->pStateTracker);
for (j=0;j<CR_MAX_BITARRAY;j++)
nbitID[j] = ~bitID[j];
i = 0; /* silence compiler */
if (CHECKDIRTY(b->enableSmooth, bitID))
{
glAble able[2];
able[0] = pState->diff_api.Disable;
able[1] = pState->diff_api.Enable;
if (from->pointSmooth != to->pointSmooth)
{
able[to->pointSmooth](GL_POINT_SMOOTH);
from->pointSmooth = to->pointSmooth;
}
CLEARDIRTY(b->enableSmooth, nbitID);
}
if (CHECKDIRTY(b->size, bitID))
{
if (from->pointSize != to->pointSize)
{
pState->diff_api.PointSize (to->pointSize);
from->pointSize = to->pointSize;
}
CLEARDIRTY(b->size, nbitID);
}
if (CHECKDIRTY(b->minSize, bitID))
{
if (from->minSize != to->minSize)
{
pState->diff_api.PointParameterfARB (GL_POINT_SIZE_MIN_ARB, to->minSize);
from->minSize = to->minSize;
}
CLEARDIRTY(b->minSize, nbitID);
}
if (CHECKDIRTY(b->maxSize, bitID))
{
if (from->maxSize != to->maxSize)
{
pState->diff_api.PointParameterfARB (GL_POINT_SIZE_MAX_ARB, to->maxSize);
from->maxSize = to->maxSize;
}
CLEARDIRTY(b->maxSize, nbitID);
}
if (CHECKDIRTY(b->fadeThresholdSize, bitID))
{
if (from->fadeThresholdSize != to->fadeThresholdSize)
{
pState->diff_api.PointParameterfARB (GL_POINT_FADE_THRESHOLD_SIZE_ARB, to->fadeThresholdSize);
from->fadeThresholdSize = to->fadeThresholdSize;
}
CLEARDIRTY(b->fadeThresholdSize, nbitID);
}
if (CHECKDIRTY(b->spriteCoordOrigin, bitID))
{
if (from->spriteCoordOrigin != to->spriteCoordOrigin)
{
pState->diff_api.PointParameterfARB (GL_POINT_SPRITE_COORD_ORIGIN, to->spriteCoordOrigin);
from->spriteCoordOrigin = to->spriteCoordOrigin;
}
CLEARDIRTY(b->spriteCoordOrigin, nbitID);
}
if (CHECKDIRTY(b->distanceAttenuation, bitID))
{
if (from->distanceAttenuation[0] != to->distanceAttenuation[0] || from->distanceAttenuation[1] != to->distanceAttenuation[1] || from->distanceAttenuation[2] != to->distanceAttenuation[2]) {
pState->diff_api.PointParameterfvARB (GL_POINT_DISTANCE_ATTENUATION_ARB, to->distanceAttenuation);
from->distanceAttenuation[0] = to->distanceAttenuation[0];
from->distanceAttenuation[1] = to->distanceAttenuation[1];
from->distanceAttenuation[2] = to->distanceAttenuation[2];
}
CLEARDIRTY(b->distanceAttenuation, nbitID);
}
if (CHECKDIRTY(b->enableSprite, bitID))
{
glAble able[2];
able[0] = pState->diff_api.Disable;
able[1] = pState->diff_api.Enable;
if (from->pointSprite != to->pointSprite)
{
able[to->pointSprite](GL_POINT_SPRITE_ARB);
from->pointSprite = to->pointSprite;
}
CLEARDIRTY(b->enableSprite, nbitID);
}
{
unsigned int activeUnit = (unsigned int) -1;
for (i = 0; i < CR_MAX_TEXTURE_UNITS; i++) {
if (CHECKDIRTY(b->coordReplacement[i], bitID))
{
GLint replacement = to->coordReplacement[i];
if (activeUnit != i) {
pState->diff_api.ActiveTextureARB(i + GL_TEXTURE0_ARB );
activeUnit = i;
}
pState->diff_api.TexEnviv(GL_POINT_SPRITE_ARB, GL_COORD_REPLACE_ARB, &replacement);
from->coordReplacement[i] = to->coordReplacement[i];
CLEARDIRTY(b->coordReplacement[i], nbitID);
}
}
if (activeUnit != toCtx->texture.curTextureUnit)
pState->diff_api.ActiveTextureARB(GL_TEXTURE0 + toCtx->texture.curTextureUnit);
}
CLEARDIRTY(b->dirty, nbitID);
}
void crStatePolygonDiff(CRPolygonBits *b, CRbitvalue *bitID,
CRContext *fromCtx, CRContext *toCtx)
{
CRPolygonState *from = &(fromCtx->polygon);
CRPolygonState *to = &(toCtx->polygon);
unsigned int j;
CRbitvalue nbitID[CR_MAX_BITARRAY];
for (j=0;j<CR_MAX_BITARRAY;j++)
nbitID[j] = ~bitID[j];
if (CHECKDIRTY(b->enable, bitID))
{
glAble able[2];
able[0] = diff_api.Disable;
able[1] = diff_api.Enable;
if (from->polygonSmooth != to->polygonSmooth)
{
able[to->polygonSmooth](GL_POLYGON_SMOOTH);
from->polygonSmooth = to->polygonSmooth;
}
if (from->polygonOffsetFill != to->polygonOffsetFill)
{
able[to->polygonOffsetFill](GL_POLYGON_OFFSET_FILL);
from->polygonOffsetFill = to->polygonOffsetFill;
}
if (from->polygonOffsetLine != to->polygonOffsetLine)
{
able[to->polygonOffsetLine](GL_POLYGON_OFFSET_LINE);
from->polygonOffsetLine = to->polygonOffsetLine;
}
if (from->polygonOffsetPoint != to->polygonOffsetPoint)
{
able[to->polygonOffsetPoint](GL_POLYGON_OFFSET_POINT);
from->polygonOffsetPoint = to->polygonOffsetPoint;
}
if (from->polygonStipple != to->polygonStipple)
{
able[to->polygonStipple](GL_POLYGON_STIPPLE);
from->polygonStipple = to->polygonStipple;
}
if (from->cullFace != to->cullFace)
{
able[to->cullFace](GL_CULL_FACE);
from->cullFace = to->cullFace;
}
CLEARDIRTY(b->enable, nbitID);
}
if (CHECKDIRTY(b->offset, bitID))
{
if (from->offsetFactor != to->offsetFactor ||
from->offsetUnits != to->offsetUnits)
{
diff_api.PolygonOffset (to->offsetFactor,
to->offsetUnits);
from->offsetFactor = to->offsetFactor;
from->offsetUnits = to->offsetUnits;
}
CLEARDIRTY(b->offset, nbitID);
}
if (CHECKDIRTY(b->mode, bitID))
{
if (from->frontFace != to->frontFace)
{
diff_api.FrontFace (to->frontFace);
from->frontFace = to->frontFace;
}
if (from->cullFaceMode != to->cullFaceMode)
{
diff_api.CullFace (to->cullFaceMode);
from->cullFaceMode = to->cullFaceMode;
}
if (from->backMode != to->backMode)
{
diff_api.PolygonMode (GL_BACK, to->backMode);
from->backMode = to->backMode;
}
if (from->frontMode != to->frontMode)
{
diff_api.PolygonMode (GL_FRONT, to->frontMode);
from->frontMode = to->frontMode;
}
CLEARDIRTY(b->mode, nbitID);
}
if (CHECKDIRTY(b->stipple, bitID))
{
int j;
diff_api.PolygonStipple ((GLubyte *) to->stipple);
for (j=0; j<32; j++)
{
from->stipple[j] = to->stipple[j];
}
CLEARDIRTY(b->stipple, nbitID);
}
CLEARDIRTY(b->dirty, nbitID);
}