const struct tgsi_token *
tgsi_emulate(const struct tgsi_token *tokens, unsigned flags)
{
struct tgsi_emulation_context ctx;
struct tgsi_token *newtoks;
int newlen;
if (!(flags & (TGSI_EMU_CLAMP_COLOR_OUTPUTS |
TGSI_EMU_PASSTHROUGH_EDGEFLAG |
TGSI_EMU_FORCE_PERSAMPLE_INTERP)))
return NULL;
memset(&ctx, 0, sizeof(ctx));
ctx.flags = flags;
tgsi_scan_shader(tokens, &ctx.info);
if (flags & TGSI_EMU_FORCE_PERSAMPLE_INTERP)
ctx.base.transform_declaration = transform_decl;
if (flags & (TGSI_EMU_CLAMP_COLOR_OUTPUTS |
TGSI_EMU_PASSTHROUGH_EDGEFLAG))
ctx.base.transform_instruction = transform_instr;
newlen = tgsi_num_tokens(tokens) + 20;
newtoks = tgsi_alloc_tokens(newlen);
if (!newtoks)
return NULL;
tgsi_transform_shader(tokens, newtoks, newlen, &ctx.base);
return newtoks;
}
/**
* Generate the frag shader we'll use for drawing AA lines.
* This will be the user's shader plus some texture/modulate instructions.
*/
static boolean
generate_aaline_fs(struct aaline_stage *aaline)
{
struct pipe_context *pipe = aaline->stage.draw->pipe;
const struct pipe_shader_state *orig_fs = &aaline->fs->state;
struct pipe_shader_state aaline_fs;
struct aa_transform_context transform;
const uint newLen = tgsi_num_tokens(orig_fs->tokens) + NUM_NEW_TOKENS;
aaline_fs = *orig_fs; /* copy to init */
aaline_fs.tokens = tgsi_alloc_tokens(newLen);
if (aaline_fs.tokens == NULL)
return FALSE;
memset(&transform, 0, sizeof(transform));
transform.colorOutput = -1;
transform.maxInput = -1;
transform.maxGeneric = -1;
transform.colorTemp = -1;
transform.texTemp = -1;
transform.base.prolog = aa_transform_prolog;
transform.base.epilog = aa_transform_epilog;
transform.base.transform_instruction = aa_transform_inst;
transform.base.transform_declaration = aa_transform_decl;
tgsi_transform_shader(orig_fs->tokens,
(struct tgsi_token *) aaline_fs.tokens,
newLen, &transform.base);
#if 0 /* DEBUG */
debug_printf("draw_aaline, orig shader:\n");
tgsi_dump(orig_fs->tokens, 0);
debug_printf("draw_aaline, new shader:\n");
tgsi_dump(aaline_fs.tokens, 0);
#endif
aaline->fs->sampler_unit = transform.freeSampler;
aaline->fs->aaline_fs = aaline->driver_create_fs_state(pipe, &aaline_fs);
if (aaline->fs->aaline_fs == NULL)
goto fail;
aaline->fs->generic_attrib = transform.maxGeneric + 1;
FREE((void *)aaline_fs.tokens);
return TRUE;
fail:
FREE((void *)aaline_fs.tokens);
return FALSE;
}
/**
* Generate the frag shader we'll use for drawing AA lines.
* This will be the user's shader plus some texture/modulate instructions.
*/
static boolean
generate_aaline_fs(struct aaline_stage *aaline)
{
const struct pipe_shader_state *orig_fs = &aaline->fs->state;
struct pipe_shader_state aaline_fs;
struct aa_transform_context transform;
#define MAX 1000
aaline_fs = *orig_fs; /* copy to init */
aaline_fs.tokens = MALLOC(sizeof(struct tgsi_token) * MAX);
if (aaline_fs.tokens == NULL)
return FALSE;
memset(&transform, 0, sizeof(transform));
transform.colorOutput = -1;
transform.maxInput = -1;
transform.maxGeneric = -1;
transform.colorTemp = -1;
transform.texTemp = -1;
transform.firstInstruction = TRUE;
transform.base.transform_instruction = aa_transform_inst;
transform.base.transform_declaration = aa_transform_decl;
tgsi_transform_shader(orig_fs->tokens,
(struct tgsi_token *) aaline_fs.tokens,
MAX, &transform.base);
#if 0 /* DEBUG */
tgsi_dump(orig_fs->tokens, 0);
tgsi_dump(aaline_fs.tokens, 0);
#endif
aaline->fs->sampler_unit = transform.freeSampler;
aaline->fs->aaline_fs
= aaline->driver_create_fs_state(aaline->pipe, &aaline_fs);
if (aaline->fs->aaline_fs == NULL)
return FALSE;
aaline->fs->generic_attrib = transform.maxGeneric + 1;
return TRUE;
}
/*
* A post-process step in the draw call to fix texture targets and
* insert code for fog.
*/
const struct tgsi_token *
st_fixup_atifs(const struct tgsi_token *tokens,
const struct st_fp_variant_key *key)
{
struct tgsi_atifs_transform ctx;
struct tgsi_token *newtoks;
int newlen;
memset(&ctx, 0, sizeof(ctx));
ctx.base.transform_declaration = transform_decl;
ctx.base.transform_instruction = transform_instr;
ctx.key = key;
tgsi_scan_shader(tokens, &ctx.info);
newlen = tgsi_num_tokens(tokens) + 30;
newtoks = tgsi_alloc_tokens(newlen);
if (!newtoks)
return NULL;
tgsi_transform_shader(tokens, newtoks, newlen, &ctx.base);
return newtoks;
}
void r300_draw_init_vertex_shader(struct r300_context *r300,
struct r300_vertex_shader *vs)
{
struct draw_context *draw = r300->draw;
struct pipe_shader_state new_vs;
struct tgsi_shader_info info;
struct vs_transform_context transform;
const uint newLen = tgsi_num_tokens(vs->state.tokens) + 100 /* XXX */;
unsigned i;
tgsi_scan_shader(vs->state.tokens, &info);
new_vs.tokens = tgsi_alloc_tokens(newLen);
if (new_vs.tokens == NULL)
return;
memset(&transform, 0, sizeof(transform));
for (i = 0; i < Elements(transform.out_remap); i++) {
transform.out_remap[i] = i;
}
transform.last_generic = -1;
transform.base.transform_instruction = transform_inst;
transform.base.transform_declaration = transform_decl;
for (i = 0; i < info.num_outputs; i++) {
unsigned index = info.output_semantic_index[i];
switch (info.output_semantic_name[i]) {
case TGSI_SEMANTIC_COLOR:
assert(index < 2);
transform.color_used[index] = TRUE;
break;
case TGSI_SEMANTIC_BCOLOR:
assert(index < 2);
transform.bcolor_used[index] = TRUE;
break;
}
}
tgsi_transform_shader(vs->state.tokens,
(struct tgsi_token*)new_vs.tokens,
newLen, &transform.base);
#if 0
printf("----------------------------------------------\norig shader:\n");
tgsi_dump(vs->state.tokens, 0);
printf("----------------------------------------------\nnew shader:\n");
tgsi_dump(new_vs.tokens, 0);
printf("----------------------------------------------\n");
#endif
/* Free old tokens. */
FREE((void*)vs->state.tokens);
vs->draw_vs = draw_create_vertex_shader(draw, &new_vs);
/* Instead of duplicating and freeing the tokens, copy the pointer directly. */
vs->state.tokens = new_vs.tokens;
/* Init the VS output table for the rasterizer. */
r300_init_vs_outputs(r300, vs);
/* Make the last generic be WPOS. */
vs->outputs.wpos = vs->outputs.generic[transform.last_generic + 1];
vs->outputs.generic[transform.last_generic + 1] = ATTR_UNUSED;
}
