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|
/* $Id: t_imm_api.c,v 1.10 2001/04/09 14:47:34 keithw Exp $ */
/*
* Mesa 3-D graphics library
* Version: 3.5
*
* Copyright (C) 1999-2001 Brian Paul 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 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
* BRIAN PAUL 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:
* Keith Whitwell <keithw@valinux.com>
*/
#include "glheader.h"
#include "context.h"
#include "dlist.h"
#include "enums.h"
#include "light.h"
#include "mem.h"
#include "state.h"
#include "colormac.h"
#include "macros.h"
#include "t_context.h"
#include "t_imm_api.h"
#include "t_imm_elt.h"
#include "t_imm_exec.h"
#include "t_imm_dlist.h"
/* A cassette is full or flushed on a statechange.
*/
void _tnl_flush_immediate( struct immediate *IM )
{
GLcontext *ctx = IM->backref;
if (ctx->CompileFlag)
_tnl_compile_cassette( ctx, IM );
else
_tnl_execute_cassette( ctx, IM );
}
void _tnl_flush_vertices( GLcontext *ctx, GLuint flags )
{
struct immediate *IM = TNL_CURRENT_IM(ctx);
if (IM->Flag[IM->Start])
if ((flags & FLUSH_UPDATE_CURRENT) || IM->Count > IM->Start)
_tnl_flush_immediate( IM );
}
static void
_tnl_begin( GLcontext *ctx, GLenum p )
{
struct immediate *IM = TNL_CURRENT_IM(ctx);
GLuint inflags, state;
if (MESA_VERBOSE&VERBOSE_API)
fprintf(stderr, "glBegin(IM %d) %s\n", IM->id,
_mesa_lookup_enum_by_nr(p));
if (ctx->NewState)
_mesa_update_state(ctx);
/* if only a very few slots left, might as well flush now
*/
if (IM->Count > IMM_MAXDATA-8) {
_tnl_flush_immediate( IM );
IM = TNL_CURRENT_IM(ctx);
}
/* Check for and flush buffered vertices from internal operations.
*/
if (IM->SavedBeginState) {
_tnl_flush_immediate( IM );
IM = TNL_CURRENT_IM(ctx);
IM->BeginState = IM->SavedBeginState;
IM->SavedBeginState = 0;
}
state = IM->BeginState;
inflags = state & (VERT_BEGIN_0|VERT_BEGIN_1);
state |= inflags << 2; /* set error conditions */
if (inflags != (VERT_BEGIN_0|VERT_BEGIN_1))
{
GLuint count = IM->Count;
GLuint last = IM->LastPrimitive;
ASSERT(IM->Primitive[IM->LastPrimitive] & PRIM_LAST);
state |= (VERT_BEGIN_0|VERT_BEGIN_1);
IM->Flag[count] |= VERT_BEGIN;
IM->Primitive[IM->LastPrimitive] &= ~PRIM_LAST;
IM->Primitive[count] = p | PRIM_BEGIN | PRIM_LAST;
IM->PrimitiveLength[IM->LastPrimitive] = count - IM->LastPrimitive;
IM->LastPrimitive = count;
/* Not quite right. Need to use the fallback '_aa_ArrayElement'
* when not known to be inside begin/end and arrays are unlocked.
*/
if (IM->FlushElt) {
_tnl_translate_array_elts( ctx, IM, last, count );
IM->FlushElt = 0;
}
}
ctx->Driver.NeedFlush |= FLUSH_STORED_VERTICES;
IM->BeginState = state;
}
static void
_tnl_Begin( GLenum mode )
{
GET_CURRENT_CONTEXT(ctx);
if (mode > GL_POLYGON) {
_mesa_compile_error( ctx, GL_INVALID_ENUM, "glBegin" );
return;
}
_tnl_begin(ctx, mode);
/* If compiling update SavePrimitive now.
*
* In compile_and_exec mode, exec_primitive will be updated when
* the cassette is finished.
*
* If not compiling, update exec_primitive now.
*/
if (ctx->CompileFlag) {
if (ctx->Driver.CurrentSavePrimitive == PRIM_UNKNOWN)
ctx->Driver.CurrentSavePrimitive = PRIM_INSIDE_UNKNOWN_PRIM;
else if (ctx->Driver.CurrentSavePrimitive == PRIM_OUTSIDE_BEGIN_END)
ctx->Driver.CurrentSavePrimitive = mode;
}
else if (ctx->Driver.CurrentExecPrimitive == PRIM_OUTSIDE_BEGIN_END)
ctx->Driver.CurrentExecPrimitive = mode;
}
GLboolean
_tnl_hard_begin( GLcontext *ctx, GLenum p )
{
struct immediate *IM = TNL_CURRENT_IM(ctx);
GLuint count, last;
if (ctx->NewState)
_mesa_update_state(ctx);
/* If not compiling, treat as a normal begin().
*/
if (!ctx->CompileFlag) {
_tnl_begin( ctx, p );
/* Set this for the duration:
*/
ctx->Driver.CurrentExecPrimitive = p;
return GL_TRUE;
}
if (IM->Count > IMM_MAXDATA-8) {
_tnl_flush_immediate( IM );
IM = TNL_CURRENT_IM(ctx);
}
switch (IM->BeginState & (VERT_BEGIN_0|VERT_BEGIN_1)) {
case VERT_BEGIN_0|VERT_BEGIN_1:
/* This is an immediate known to be inside a begin/end object.
*/
IM->BeginState |= (VERT_ERROR_1|VERT_ERROR_0);
return GL_FALSE;
case VERT_BEGIN_0:
case VERT_BEGIN_1:
/* This is a display-list immediate in an unknown begin/end
* state. Assert it is empty and conviert it to a 'hard' one.
*/
ASSERT (IM->SavedBeginState == 0);
/* Push current beginstate, to be restored later. Don't worry
* about raising errors.
*/
IM->SavedBeginState = IM->BeginState;
/* FALLTHROUGH */
case 0:
/* Unless we have fallen through, this is an immediate known to
* be outside begin/end objects.
*/
IM->BeginState |= VERT_BEGIN_0|VERT_BEGIN_1;
count = IM->Count;
last = IM->LastPrimitive;
ASSERT(IM->Primitive[IM->LastPrimitive] & PRIM_LAST);
IM->Flag[count] |= VERT_BEGIN;
IM->Primitive[last] &= ~PRIM_LAST;
IM->Primitive[count] = p | PRIM_BEGIN | PRIM_LAST;
IM->PrimitiveLength[last] = count - last;
IM->LastPrimitive = count;
ASSERT (!IM->FlushElt);
/* This is necessary as this immediate will not be flushed in
* _tnl_end() -- we leave it active, hoping to pick up more
* vertices before the next state change.
*/
ctx->Driver.NeedFlush |= FLUSH_STORED_VERTICES;
return GL_TRUE;
default:
ASSERT (0);
return GL_TRUE;
}
}
/* Need to do this to get the correct begin/end error behaviour from
* functions like ColorPointerEXT which are still active in
* SAVE_AND_EXEC modes.
*/
void
_tnl_save_Begin( GLenum mode )
{
GET_CURRENT_CONTEXT(ctx);
if (mode > GL_POLYGON) {
_mesa_compile_error( ctx, GL_INVALID_ENUM, "glBegin" );
return;
}
if (ctx->ExecuteFlag) {
/* Preserve vtxfmt invarient:
*/
if (ctx->NewState)
_mesa_update_state( ctx );
/* Slot in geomexec: No need to call setdispatch as we know
* CurrentDispatch is Save.
*/
ASSERT(ctx->CurrentDispatch == ctx->Save);
}
_tnl_begin( ctx, mode );
}
/* Both streams now outside begin/end.
*
* Leave SavedBeginState untouched -- attempt to gather several
* rects/arrays together in a single immediate struct.
*/
void
_tnl_end( GLcontext *ctx )
{
struct immediate *IM = TNL_CURRENT_IM(ctx);
GLuint state = IM->BeginState;
GLuint inflags = (~state) & (VERT_BEGIN_0|VERT_BEGIN_1);
state |= inflags << 2; /* errors */
if (inflags != (VERT_BEGIN_0|VERT_BEGIN_1))
{
GLuint count = IM->Count;
GLuint last = IM->LastPrimitive;
ASSERT(IM->Primitive[IM->LastPrimitive] & PRIM_LAST);
state &= ~(VERT_BEGIN_0|VERT_BEGIN_1); /* update state */
IM->Flag[count] |= VERT_END;
IM->Primitive[last] |= PRIM_END;
IM->Primitive[last] &= ~PRIM_LAST;
IM->PrimitiveLength[last] = count - last;
IM->Primitive[count] = (GL_POLYGON+1) | PRIM_LAST;
IM->LastPrimitive = count;
if (IM->FlushElt) {
_tnl_translate_array_elts( ctx, IM, last, count );
IM->FlushElt = 0;
}
}
IM->BeginState = state;
if (!ctx->CompileFlag)
ctx->Driver.CurrentExecPrimitive = PRIM_OUTSIDE_BEGIN_END;
/* You can set this flag to get the old 'flush_vb on glEnd()'
* behaviour.
*/
if ((MESA_DEBUG_FLAGS&DEBUG_ALWAYS_FLUSH))
_tnl_flush_immediate( IM );
}
static void
_tnl_End(void)
{
GET_CURRENT_CONTEXT(ctx);
_tnl_end( ctx );
/* Need to keep save primitive uptodate in COMPILE and
* COMPILE_AND_EXEC modes, need to keep exec primitive uptodate
* otherwise.
*/
if (ctx->CompileFlag)
ctx->Driver.CurrentSavePrimitive = PRIM_OUTSIDE_BEGIN_END;
}
#define COLOR( IM, r, g, b, a ) \
{ \
GLuint count = IM->Count; \
IM->Flag[count] |= VERT_RGBA; \
IM->Color[count][0] = r; \
IM->Color[count][1] = g; \
IM->Color[count][2] = b; \
IM->Color[count][3] = a; \
}
#define COLORV( IM, v ) \
{ \
GLuint count = IM->Count; \
IM->Flag[count] |= VERT_RGBA; \
COPY_CHAN4(IM->Color[count], v); \
}
static void
_tnl_Color3f( GLfloat red, GLfloat green, GLfloat blue )
{
GLchan col[4];
GET_IMMEDIATE;
UNCLAMPED_FLOAT_TO_CHAN(col[0], red);
UNCLAMPED_FLOAT_TO_CHAN(col[1], green);
UNCLAMPED_FLOAT_TO_CHAN(col[2], blue);
col[3] = CHAN_MAX;
COLORV( IM, col );
}
static void
_tnl_Color3ub( GLubyte red, GLubyte green, GLubyte blue )
{
#if CHAN_BITS == 8
GET_IMMEDIATE;
COLOR( IM, red, green, blue, CHAN_MAX );
#else
GET_IMMEDIATE;
COLOR(IM,
UBYTE_TO_CHAN(red),
UBYTE_TO_CHAN(green),
UBYTE_TO_CHAN(blue),
CHAN_MAX);
#endif
}
static void
_tnl_Color4f( GLfloat red, GLfloat green, GLfloat blue, GLfloat alpha )
{
GLchan col[4];
GET_IMMEDIATE;
UNCLAMPED_FLOAT_TO_CHAN(col[0], red);
UNCLAMPED_FLOAT_TO_CHAN(col[1], green);
UNCLAMPED_FLOAT_TO_CHAN(col[2], blue);
UNCLAMPED_FLOAT_TO_CHAN(col[3], alpha);
COLORV( IM, col );
}
static void
_tnl_Color4ub( GLubyte red, GLubyte green, GLubyte blue, GLubyte alpha )
{
GET_IMMEDIATE;
COLOR(IM,
UBYTE_TO_CHAN(red),
UBYTE_TO_CHAN(green),
UBYTE_TO_CHAN(blue),
UBYTE_TO_CHAN(alpha));
}
static void
_tnl_Color3fv( const GLfloat *v )
{
GLchan col[4];
GET_IMMEDIATE;
UNCLAMPED_FLOAT_TO_CHAN(col[0], v[0]);
UNCLAMPED_FLOAT_TO_CHAN(col[1], v[1]);
UNCLAMPED_FLOAT_TO_CHAN(col[2], v[2]);
col[3] = CHAN_MAX;
COLORV( IM, col );
}
static void
_tnl_Color3ubv( const GLubyte *v )
{
GET_IMMEDIATE;
COLOR(IM,
UBYTE_TO_CHAN(v[0]),
UBYTE_TO_CHAN(v[1]),
UBYTE_TO_CHAN(v[2]),
CHAN_MAX );
}
static void
_tnl_Color4fv( const GLfloat *v )
{
GLchan col[4];
GET_IMMEDIATE;
UNCLAMPED_FLOAT_TO_CHAN(col[0], v[0]);
UNCLAMPED_FLOAT_TO_CHAN(col[1], v[1]);
UNCLAMPED_FLOAT_TO_CHAN(col[2], v[2]);
UNCLAMPED_FLOAT_TO_CHAN(col[3], v[3]);
COLORV( IM, col );
}
static void
_tnl_Color4ubv( const GLubyte *v)
{
GET_IMMEDIATE;
COLOR(IM,
UBYTE_TO_CHAN(v[0]),
UBYTE_TO_CHAN(v[1]),
UBYTE_TO_CHAN(v[2]),
UBYTE_TO_CHAN(v[3]));
}
#define SECONDARY_COLOR( IM, r, g, b ) \
{ \
GLuint count = IM->Count; \
IM->Flag[count] |= VERT_SPEC_RGB; \
IM->SecondaryColor[count][0] = r; \
IM->SecondaryColor[count][1] = g; \
IM->SecondaryColor[count][2] = b; \
}
#define SECONDARY_COLORV( IM, v ) \
{ \
GLuint count = IM->Count; \
IM->Flag[count] |= VERT_SPEC_RGB; \
IM->SecondaryColor[count][0] = v[0]; \
IM->SecondaryColor[count][1] = v[1]; \
IM->SecondaryColor[count][2] = v[2]; \
}
static void
_tnl_SecondaryColor3fEXT( GLfloat red, GLfloat green, GLfloat blue )
{
GLchan col[3];
GET_IMMEDIATE;
UNCLAMPED_FLOAT_TO_CHAN(col[0], red);
UNCLAMPED_FLOAT_TO_CHAN(col[1], green);
UNCLAMPED_FLOAT_TO_CHAN(col[2], blue);
SECONDARY_COLORV( IM, col );
}
static void
_tnl_SecondaryColor3ubEXT( GLubyte red, GLubyte green, GLubyte blue )
{
GET_IMMEDIATE;
SECONDARY_COLOR(IM,
UBYTE_TO_CHAN(red),
UBYTE_TO_CHAN(green),
UBYTE_TO_CHAN(blue));
}
static void
_tnl_SecondaryColor3fvEXT( const GLfloat *v )
{
GLchan col[3];
GET_IMMEDIATE;
UNCLAMPED_FLOAT_TO_CHAN(col[0], v[0]);
UNCLAMPED_FLOAT_TO_CHAN(col[1], v[1]);
UNCLAMPED_FLOAT_TO_CHAN(col[2], v[2]);
SECONDARY_COLORV( IM, col );
}
static void
_tnl_SecondaryColor3ubvEXT( const GLubyte *v )
{
GET_IMMEDIATE;
SECONDARY_COLOR(IM,
UBYTE_TO_CHAN(v[0]),
UBYTE_TO_CHAN(v[1]),
UBYTE_TO_CHAN(v[2]));
}
static void
_tnl_EdgeFlag( GLboolean flag )
{
GLuint count;
GET_IMMEDIATE;
count = IM->Count;
IM->EdgeFlag[count] = flag;
IM->Flag[count] |= VERT_EDGE;
}
static void
_tnl_EdgeFlagv( const GLboolean *flag )
{
GLuint count;
GET_IMMEDIATE;
count = IM->Count;
IM->EdgeFlag[count] = *flag;
IM->Flag[count] |= VERT_EDGE;
}
static void
_tnl_FogCoordfEXT( GLfloat f )
{
GLuint count;
GET_IMMEDIATE;
count = IM->Count;
IM->FogCoord[count] = f;
IM->Flag[count] |= VERT_FOG_COORD;
}
static void
_tnl_FogCoordfvEXT( const GLfloat *v )
{
GLuint count;
GET_IMMEDIATE;
count = IM->Count;
IM->FogCoord[count] = v[0];
IM->Flag[count] |= VERT_FOG_COORD;
}
static void
_tnl_Indexi( GLint c )
{
GLuint count;
GET_IMMEDIATE;
count = IM->Count;
IM->Index[count] = c;
IM->Flag[count] |= VERT_INDEX;
}
static void
_tnl_Indexiv( const GLint *c )
{
GLuint count;
GET_IMMEDIATE;
count = IM->Count;
IM->Index[count] = *c;
IM->Flag[count] |= VERT_INDEX;
}
#define NORMAL( x, y, z ) \
{ \
GLuint count; \
GLfloat *normal; \
GET_IMMEDIATE; \
count = IM->Count; \
IM->Flag[count] |= VERT_NORM; \
normal = IM->Normal[count]; \
ASSIGN_3V(normal, x,y,z); \
}
#if defined(USE_IEEE)
#define NORMALF( x, y, z ) \
{ \
GLuint count; \
GLint *normal; \
GET_IMMEDIATE; \
count = IM->Count; \
IM->Flag[count] |= VERT_NORM; \
normal = (GLint *)IM->Normal[count]; \
ASSIGN_3V(normal, *(int*)&(x), *(int*)&(y), *(int*)&(z)); \
}
#else
#define NORMALF NORMAL
#endif
static void
_tnl_Normal3f( GLfloat nx, GLfloat ny, GLfloat nz )
{
NORMALF(nx, ny, nz);
}
static void
_tnl_Normal3fv( const GLfloat *v )
{
NORMALF( v[0], v[1], v[2] );
}
#define TEXCOORD1(s) \
{ \
GLuint count; \
GLfloat *tc; \
GET_IMMEDIATE; \
count = IM->Count; \
IM->Flag[count] |= VERT_TEX0; \
tc = IM->TexCoord0[count]; \
ASSIGN_4V(tc,s,0,0,1); \
}
#define TEXCOORD2(s,t) \
{ \
GLuint count; \
GLfloat *tc; \
GET_IMMEDIATE; \
count = IM->Count; \
IM->Flag[count] |= VERT_TEX0; \
tc = IM->TexCoord0[count]; \
ASSIGN_4V(tc, s,t,0,1); \
}
#define TEXCOORD3(s,t,u) \
{ \
GLuint count; \
GLfloat *tc; \
GET_IMMEDIATE; \
count = IM->Count; \
IM->Flag[count] |= VERT_TEX0; \
IM->TexSize |= TEX_0_SIZE_3; \
tc = IM->TexCoord0[count]; \
ASSIGN_4V(tc, s,t,u,1); \
}
#define TEXCOORD4(s,t,u,v) \
{ \
GLuint count; \
GLfloat *tc; \
GET_IMMEDIATE; \
count = IM->Count; \
IM->Flag[count] |= VERT_TEX0; \
IM->TexSize |= TEX_0_SIZE_4; \
tc = IM->TexCoord0[count]; \
ASSIGN_4V(tc, s,t,u,v); \
}
#if defined(USE_IEEE)
#define TEXCOORD2F(s,t) \
{ \
GLuint count; \
GLint *tc; \
GET_IMMEDIATE; \
count = IM->Count; \
IM->Flag[count] |= VERT_TEX0; \
tc = (GLint *)IM->TexCoord0[count]; \
tc[0] = *(GLint *)&(s); \
tc[1] = *(GLint *)&(t); \
tc[2] = 0; \
tc[3] = IEEE_ONE; \
}
#else
#define TEXCOORD2F TEXCOORD2
#endif
static void
_tnl_TexCoord1f( GLfloat s )
{
TEXCOORD1(s);
}
static void
_tnl_TexCoord2f( GLfloat s, GLfloat t )
{
TEXCOORD2F(s,t);
}
static void
_tnl_TexCoord3f( GLfloat s, GLfloat t, GLfloat r )
{
TEXCOORD3(s,t,r);
}
static void
_tnl_TexCoord4f( GLfloat s, GLfloat t, GLfloat r, GLfloat q )
{
TEXCOORD4(s,t,r,q)
}
static void
_tnl_TexCoord1fv( const GLfloat *v )
{
TEXCOORD1(v[0]);
}
static void
_tnl_TexCoord2fv( const GLfloat *v )
{
TEXCOORD2F(v[0],v[1]);
}
static void
_tnl_TexCoord3fv( const GLfloat *v )
{
TEXCOORD3(v[0],v[1],v[2]);
}
static void
_tnl_TexCoord4fv( const GLfloat *v )
{
TEXCOORD4(v[0],v[1],v[2],v[3]);
}
/* KW: Run into bad problems in vertex copying if we don't fully pad
* the incoming vertices.
*/
#define VERTEX2(IM, x,y) \
{ \
GLuint count = IM->Count++; \
GLfloat *dest = IM->Obj[count]; \
IM->Flag[count] |= VERT_OBJ; \
ASSIGN_4V(dest, x, y, 0, 1); \
/* ASSERT(IM->Flag[IM->Count]==0); */\
if (count == IMM_MAXDATA - 1) \
_tnl_flush_immediate( IM ); \
}
#define VERTEX3(IM,x,y,z) \
{ \
GLuint count = IM->Count++; \
GLfloat *dest = IM->Obj[count]; \
IM->Flag[count] |= VERT_OBJ_23; \
ASSIGN_4V(dest, x, y, z, 1); \
/* ASSERT(IM->Flag[IM->Count]==0); */ \
if (count == IMM_MAXDATA - 1) \
_tnl_flush_immediate( IM ); \
}
#define VERTEX4(IM, x,y,z,w) \
{ \
GLuint count = IM->Count++; \
GLfloat *dest = IM->Obj[count]; \
IM->Flag[count] |= VERT_OBJ_234; \
ASSIGN_4V(dest, x, y, z, w); \
if (count == IMM_MAXDATA - 1) \
_tnl_flush_immediate( IM ); \
}
#if defined(USE_IEEE)
#define VERTEX2F(IM, x, y) \
{ \
GLuint count = IM->Count++; \
GLint *dest = (GLint *)IM->Obj[count]; \
IM->Flag[count] |= VERT_OBJ; \
dest[0] = *(GLint *)&(x); \
dest[1] = *(GLint *)&(y); \
dest[2] = 0; \
dest[3] = IEEE_ONE; \
/* ASSERT(IM->Flag[IM->Count]==0); */ \
if (count == IMM_MAXDATA - 1) \
_tnl_flush_immediate( IM ); \
}
#else
#define VERTEX2F VERTEX2
#endif
#if defined(USE_IEEE)
#define VERTEX3F(IM, x, y, z) \
{ \
GLuint count = IM->Count++; \
GLint *dest = (GLint *)IM->Obj[count]; \
IM->Flag[count] |= VERT_OBJ_23; \
dest[0] = *(GLint *)&(x); \
dest[1] = *(GLint *)&(y); \
dest[2] = *(GLint *)&(z); \
dest[3] = IEEE_ONE; \
/* ASSERT(IM->Flag[IM->Count]==0); */ \
if (count == IMM_MAXDATA - 1) \
_tnl_flush_immediate( IM ); \
}
#else
#define VERTEX3F VERTEX3
#endif
#if defined(USE_IEEE)
#define VERTEX4F(IM, x, y, z, w) \
{ \
GLuint count = IM->Count++; \
GLint *dest = (GLint *)IM->Obj[count]; \
IM->Flag[count] |= VERT_OBJ_234; \
dest[0] = *(GLint *)&(x); \
dest[1] = *(GLint *)&(y); \
dest[2] = *(GLint *)&(z); \
dest[3] = *(GLint *)&(w); \
if (count == IMM_MAXDATA - 1) \
_tnl_flush_immediate( IM ); \
}
#else
#define VERTEX4F VERTEX4
#endif
static void
_tnl_Vertex2f( GLfloat x, GLfloat y )
{
GET_IMMEDIATE;
VERTEX2F( IM, x, y );
}
static void
_tnl_Vertex3f( GLfloat x, GLfloat y, GLfloat z )
{
GET_IMMEDIATE;
VERTEX3F( IM, x, y, z );
}
static void
_tnl_Vertex4f( GLfloat x, GLfloat y, GLfloat z, GLfloat w )
{
GET_IMMEDIATE;
VERTEX4F( IM, x, y, z, w );
}
static void
_tnl_Vertex2fv( const GLfloat *v )
{
GET_IMMEDIATE;
VERTEX2F( IM, v[0], v[1] );
}
static void
_tnl_Vertex3fv( const GLfloat *v )
{
GET_IMMEDIATE;
VERTEX3F( IM, v[0], v[1], v[2] );
}
static void
_tnl_Vertex4fv( const GLfloat *v )
{
GET_IMMEDIATE;
VERTEX4F( IM, v[0], v[1], v[2], v[3] );
}
/*
* GL_ARB_multitexture
*
* Note: the multitexture spec says that specifying an invalid target
* has undefined results and does not have to generate an error. Just
* don't crash. We no-op on invalid targets.
*/
#define MAX_TARGET (GL_TEXTURE0_ARB + MAX_TEXTURE_UNITS)
#define MULTI_TEXCOORD1(target, s) \
{ \
GET_IMMEDIATE; \
GLuint texunit = target - GL_TEXTURE0_ARB; \
if (texunit < IM->MaxTextureUnits) { \
GLuint count = IM->Count; \
GLfloat *tc = IM->TexCoord[texunit][count]; \
ASSIGN_4V(tc, s, 0.0F, 0.0F, 1.0F); \
IM->Flag[count] |= VERT_TEX(texunit); \
} \
}
#define MULTI_TEXCOORD2(target, s, t) \
{ \
GET_IMMEDIATE; \
GLuint texunit = target - GL_TEXTURE0_ARB; \
if (texunit < IM->MaxTextureUnits) { \
GLuint count = IM->Count; \
GLfloat *tc = IM->TexCoord[texunit][count]; \
ASSIGN_4V(tc, s, t, 0.0F, 1.0F); \
IM->Flag[count] |= VERT_TEX(texunit); \
} \
}
#define MULTI_TEXCOORD3(target, s, t, u) \
{ \
GET_IMMEDIATE; \
GLuint texunit = target - GL_TEXTURE0_ARB; \
if (texunit < IM->MaxTextureUnits) { \
GLuint count = IM->Count; \
GLfloat *tc = IM->TexCoord[texunit][count]; \
ASSIGN_4V(tc, s, t, u, 1.0F); \
IM->Flag[count] |= VERT_TEX(texunit); \
IM->TexSize |= TEX_SIZE_3(texunit); \
} \
}
#define MULTI_TEXCOORD4(target, s, t, u, v) \
{ \
GET_IMMEDIATE; \
GLuint texunit = target - GL_TEXTURE0_ARB; \
if (texunit < IM->MaxTextureUnits) { \
GLuint count = IM->Count; \
GLfloat *tc = IM->TexCoord[texunit][count]; \
ASSIGN_4V(tc, s, t, u, v); \
IM->Flag[count] |= VERT_TEX(texunit); \
IM->TexSize |= TEX_SIZE_4(texunit); \
} \
}
#if defined(USE_IEEE)
#define MULTI_TEXCOORD2F(target, s, t) \
{ \
GET_IMMEDIATE; \
GLuint texunit = target - GL_TEXTURE0_ARB; \
if (texunit < IM->MaxTextureUnits) { \
GLuint count = IM->Count; \
GLint *tc = (GLint *)IM->TexCoord[texunit][count]; \
IM->Flag[count] |= VERT_TEX(texunit); \
tc[0] = *(int *)&(s); \
tc[1] = *(int *)&(t); \
tc[2] = 0; \
tc[3] = IEEE_ONE; \
} \
}
#else
#define MULTI_TEXCOORD2F MULTI_TEXCOORD2
#endif
static void
_tnl_MultiTexCoord1fARB(GLenum target, GLfloat s)
{
MULTI_TEXCOORD1( target, s );
}
static void
_tnl_MultiTexCoord1fvARB(GLenum target, const GLfloat *v)
{
MULTI_TEXCOORD1( target, v[0] );
}
static void
_tnl_MultiTexCoord2fARB(GLenum target, GLfloat s, GLfloat t)
{
MULTI_TEXCOORD2F( target, s, t );
}
static void
_tnl_MultiTexCoord2fvARB(GLenum target, const GLfloat *v)
{
MULTI_TEXCOORD2F( target, v[0], v[1] );
}
static void
_tnl_MultiTexCoord3fARB(GLenum target, GLfloat s, GLfloat t, GLfloat r)
{
MULTI_TEXCOORD3( target, s, t, r );
}
static void
_tnl_MultiTexCoord3fvARB(GLenum target, const GLfloat *v)
{
MULTI_TEXCOORD3( target, v[0], v[1], v[2] );
}
static void
_tnl_MultiTexCoord4fARB(GLenum target, GLfloat s, GLfloat t, GLfloat r, GLfloat q)
{
MULTI_TEXCOORD4( target, s, t, r, q );
}
static void
_tnl_MultiTexCoord4fvARB(GLenum target, const GLfloat *v)
{
MULTI_TEXCOORD4( target, v[0], v[1], v[2], v[3] );
}
/* KW: Because the eval values don't become 'current', fixup will flow
* through these vertices, and then evaluation will write on top
* of the fixup results.
*
* Note: using Obj to hold eval coord data.
*/
#define EVALCOORD1(IM, x) \
{ \
GLuint count = IM->Count++; \
IM->Flag[count] |= VERT_EVAL_C1; \
ASSIGN_4V(IM->Obj[count], x, 0, 0, 1); \
if (count == IMM_MAXDATA-1) \
_tnl_flush_immediate( IM ); \
}
#define EVALCOORD2(IM, x, y) \
{ \
GLuint count = IM->Count++; \
IM->Flag[count] |= VERT_EVAL_C2; \
ASSIGN_4V(IM->Obj[count], x, y, 0, 1); \
if (count == IMM_MAXDATA-1) \
_tnl_flush_immediate( IM ); \
}
#define EVALPOINT1(IM, x) \
{ \
GLuint count = IM->Count++; \
IM->Flag[count] |= VERT_EVAL_P1; \
ASSIGN_4V(IM->Obj[count], x, 0, 0, 1); \
if (count == IMM_MAXDATA-1) \
_tnl_flush_immediate( IM ); \
}
#define EVALPOINT2(IM, x, y) \
{ \
GLuint count = IM->Count++; \
IM->Flag[count] |= VERT_EVAL_P2; \
ASSIGN_4V(IM->Obj[count], x, y, 0, 1); \
if (count == IMM_MAXDATA-1) \
_tnl_flush_immediate( IM ); \
}
static void
_tnl_EvalCoord1f( GLfloat u )
{
GET_IMMEDIATE;
EVALCOORD1( IM, u );
}
static void
_tnl_EvalCoord1fv( const GLfloat *u )
{
GET_IMMEDIATE;
EVALCOORD1( IM, (GLfloat) *u );
}
static void
_tnl_EvalCoord2f( GLfloat u, GLfloat v )
{
GET_IMMEDIATE;
EVALCOORD2( IM, u, v );
}
static void
_tnl_EvalCoord2fv( const GLfloat *u )
{
GET_IMMEDIATE;
EVALCOORD2( IM, u[0], u[1] );
}
static void
_tnl_EvalPoint1( GLint i )
{
GET_IMMEDIATE;
EVALPOINT1( IM, i );
}
static void
_tnl_EvalPoint2( GLint i, GLint j )
{
GET_IMMEDIATE;
EVALPOINT2( IM, i, j );
}
/* Need to use the default array-elt outside begin/end for strict
* conformance.
*/
#define ARRAY_ELT( IM, i ) \
{ \
GLuint count = IM->Count; \
IM->Elt[count] = i; \
IM->Flag[count] &= IM->ArrayEltFlags; \
IM->Flag[count] |= VERT_ELT; \
IM->FlushElt |= IM->ArrayEltFlush; \
IM->Count += IM->ArrayEltIncr; \
if (IM->Count == IMM_MAXDATA) \
_tnl_flush_immediate( IM ); \
}
static void
_tnl_ArrayElement( GLint i )
{
GET_IMMEDIATE;
ARRAY_ELT( IM, i );
}
/* Internal functions. These are safe to use providing either:
*
* - It is determined that a display list is not being compiled, or
* if so that these commands won't be compiled into the list (see
* t_eval.c for an example).
*
* - _tnl_hard_begin() is used instead of _tnl_[bB]egin, and tested
* for a GL_TRUE return value. See _tnl_Rectf, below.
*/
void
_tnl_eval_coord1f( GLcontext *CC, GLfloat u )
{
struct immediate *i = TNL_CURRENT_IM(CC);
EVALCOORD1( i, u );
}
void
_tnl_eval_coord2f( GLcontext *CC, GLfloat u, GLfloat v )
{
struct immediate *i = TNL_CURRENT_IM(CC);
EVALCOORD2( i, u, v );
}
void
_tnl_array_element( GLcontext *CC, GLint i )
{
struct immediate *im = TNL_CURRENT_IM(CC);
ARRAY_ELT( im, i );
}
void
_tnl_vertex2f( GLcontext *ctx, GLfloat x, GLfloat y )
{
struct immediate *im = TNL_CURRENT_IM(ctx);
VERTEX2( im, x, y );
}
/* Execute a glRectf() function. _tnl_hard_begin() ensures the check
* on outside_begin_end is executed even in compiled lists. These
* vertices can now participate in the same VB as regular ones, even
* in most display lists.
*/
static void
_tnl_Rectf( GLfloat x1, GLfloat y1, GLfloat x2, GLfloat y2 )
{
GET_CURRENT_CONTEXT(ctx);
if (_tnl_hard_begin( ctx, GL_QUADS )) {
_tnl_vertex2f( ctx, x1, y1 );
_tnl_vertex2f( ctx, x2, y1 );
_tnl_vertex2f( ctx, x2, y2 );
_tnl_vertex2f( ctx, x1, y2 );
_tnl_end( ctx );
}
}
static void
_tnl_Materialfv( GLenum face, GLenum pname, const GLfloat *params )
{
GET_CURRENT_CONTEXT(ctx);
struct immediate *IM = TNL_CURRENT_IM(ctx);
GLuint count = IM->Count;
struct gl_material *mat;
GLuint bitmask = _mesa_material_bitmask(ctx, face, pname, ~0, "Materialfv");
if (bitmask == 0)
return;
if (!(IM->Flag[count] & VERT_MATERIAL)) {
if (!IM->Material) {
IM->Material = (GLmaterial (*)[2]) MALLOC( sizeof(GLmaterial) *
IMM_SIZE * 2 );
IM->MaterialMask = (GLuint *) MALLOC( sizeof(GLuint) * IMM_SIZE );
IM->MaterialMask[IM->LastMaterial] = 0;
}
else if (IM->MaterialOrMask & ~bitmask) {
_mesa_copy_material_pairs( IM->Material[count],
IM->Material[IM->LastMaterial],
IM->MaterialOrMask & ~bitmask );
}
IM->Flag[count] |= VERT_MATERIAL;
IM->MaterialMask[count] = 0;
IM->MaterialAndMask &= IM->MaterialMask[IM->LastMaterial];
IM->LastMaterial = count;
}
IM->MaterialOrMask |= bitmask;
IM->MaterialMask[count] |= bitmask;
mat = IM->Material[count];
if (bitmask & FRONT_AMBIENT_BIT) {
COPY_4FV( mat[0].Ambient, params );
}
if (bitmask & BACK_AMBIENT_BIT) {
COPY_4FV( mat[1].Ambient, params );
}
if (bitmask & FRONT_DIFFUSE_BIT) {
COPY_4FV( mat[0].Diffuse, params );
}
if (bitmask & BACK_DIFFUSE_BIT) {
COPY_4FV( mat[1].Diffuse, params );
}
if (bitmask & FRONT_SPECULAR_BIT) {
COPY_4FV( mat[0].Specular, params );
}
if (bitmask & BACK_SPECULAR_BIT) {
COPY_4FV( mat[1].Specular, params );
}
if (bitmask & FRONT_EMISSION_BIT) {
COPY_4FV( mat[0].Emission, params );
}
if (bitmask & BACK_EMISSION_BIT) {
COPY_4FV( mat[1].Emission, params );
}
if (bitmask & FRONT_SHININESS_BIT) {
GLfloat shininess = CLAMP( params[0], 0.0F, 128.0F );
mat[0].Shininess = shininess;
}
if (bitmask & BACK_SHININESS_BIT) {
GLfloat shininess = CLAMP( params[0], 0.0F, 128.0F );
mat[1].Shininess = shininess;
}
if (bitmask & FRONT_INDEXES_BIT) {
mat[0].AmbientIndex = params[0];
mat[0].DiffuseIndex = params[1];
mat[0].SpecularIndex = params[2];
}
if (bitmask & BACK_INDEXES_BIT) {
mat[1].AmbientIndex = params[0];
mat[1].DiffuseIndex = params[1];
mat[1].SpecularIndex = params[2];
}
}
void _tnl_imm_vtxfmt_init( GLcontext *ctx )
{
GLvertexformat *vfmt = &(TNL_CONTEXT(ctx)->vtxfmt);
/* All begin/end operations are handled by this vertex format:
*/
vfmt->ArrayElement = _tnl_ArrayElement;
vfmt->Begin = _tnl_Begin;
vfmt->Color3f = _tnl_Color3f;
vfmt->Color3fv = _tnl_Color3fv;
vfmt->Color3ub = _tnl_Color3ub;
vfmt->Color3ubv = _tnl_Color3ubv;
vfmt->Color4f = _tnl_Color4f;
vfmt->Color4fv = _tnl_Color4fv;
vfmt->Color4ub = _tnl_Color4ub;
vfmt->Color4ubv = _tnl_Color4ubv;
vfmt->EdgeFlag = _tnl_EdgeFlag;
vfmt->EdgeFlagv = _tnl_EdgeFlagv;
vfmt->End = _tnl_End;
vfmt->EvalCoord1f = _tnl_EvalCoord1f;
vfmt->EvalCoord1fv = _tnl_EvalCoord1fv;
vfmt->EvalCoord2f = _tnl_EvalCoord2f;
vfmt->EvalCoord2fv = _tnl_EvalCoord2fv;
vfmt->EvalPoint1 = _tnl_EvalPoint1;
vfmt->EvalPoint2 = _tnl_EvalPoint2;
vfmt->FogCoordfEXT = _tnl_FogCoordfEXT;
vfmt->FogCoordfvEXT = _tnl_FogCoordfvEXT;
vfmt->Indexi = _tnl_Indexi;
vfmt->Indexiv = _tnl_Indexiv;
vfmt->Materialfv = _tnl_Materialfv;
vfmt->MultiTexCoord1fARB = _tnl_MultiTexCoord1fARB;
vfmt->MultiTexCoord1fvARB = _tnl_MultiTexCoord1fvARB;
vfmt->MultiTexCoord2fARB = _tnl_MultiTexCoord2fARB;
vfmt->MultiTexCoord2fvARB = _tnl_MultiTexCoord2fvARB;
vfmt->MultiTexCoord3fARB = _tnl_MultiTexCoord3fARB;
vfmt->MultiTexCoord3fvARB = _tnl_MultiTexCoord3fvARB;
vfmt->MultiTexCoord4fARB = _tnl_MultiTexCoord4fARB;
vfmt->MultiTexCoord4fvARB = _tnl_MultiTexCoord4fvARB;
vfmt->Normal3f = _tnl_Normal3f;
vfmt->Normal3fv = _tnl_Normal3fv;
vfmt->SecondaryColor3fEXT = _tnl_SecondaryColor3fEXT;
vfmt->SecondaryColor3fvEXT = _tnl_SecondaryColor3fvEXT;
vfmt->SecondaryColor3ubEXT = _tnl_SecondaryColor3ubEXT;
vfmt->SecondaryColor3ubvEXT = _tnl_SecondaryColor3ubvEXT;
vfmt->TexCoord1f = _tnl_TexCoord1f;
vfmt->TexCoord1fv = _tnl_TexCoord1fv;
vfmt->TexCoord2f = _tnl_TexCoord2f;
vfmt->TexCoord2fv = _tnl_TexCoord2fv;
vfmt->TexCoord3f = _tnl_TexCoord3f;
vfmt->TexCoord3fv = _tnl_TexCoord3fv;
vfmt->TexCoord4f = _tnl_TexCoord4f;
vfmt->TexCoord4fv = _tnl_TexCoord4fv;
vfmt->Vertex2f = _tnl_Vertex2f;
vfmt->Vertex2fv = _tnl_Vertex2fv;
vfmt->Vertex3f = _tnl_Vertex3f;
vfmt->Vertex3fv = _tnl_Vertex3fv;
vfmt->Vertex4f = _tnl_Vertex4f;
vfmt->Vertex4fv = _tnl_Vertex4fv;
/* Outside begin/end functions (from t_varray.c, t_eval.c, ...):
*/
vfmt->Rectf = _tnl_Rectf;
/* Just use the core function:
*/
vfmt->CallList = _mesa_CallList;
vfmt->prefer_float_colors = GL_FALSE;
}
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