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authorBrian Paul <[email protected]>2009-01-11 13:40:28 -0700
committerBrian Paul <[email protected]>2009-01-11 13:40:28 -0700
commit097da27f55b3c168a98e575132ae26d6cb121136 (patch)
treecc67dbf7772936169dc581fcfc5cf69157da17c2 /src/gallium
parent33ba88a0df9f414f3ea7fd35d1fedb059f220b88 (diff)
cell: move depth/stencil code into separate function
Diffstat (limited to 'src/gallium')
-rw-r--r--src/gallium/drivers/cell/ppu/cell_gen_fragment.c392
1 files changed, 213 insertions, 179 deletions
diff --git a/src/gallium/drivers/cell/ppu/cell_gen_fragment.c b/src/gallium/drivers/cell/ppu/cell_gen_fragment.c
index e5486dc4c0e..eb6ce8d2d52 100644
--- a/src/gallium/drivers/cell/ppu/cell_gen_fragment.c
+++ b/src/gallium/drivers/cell/ppu/cell_gen_fragment.c
@@ -1316,7 +1316,9 @@ gen_stencil_test(struct spe_function *f, const struct pipe_stencil_state *state,
*/
}
-/* This function generates code that calculates a set of new stencil values
+
+/**
+ * This function generates code that calculates a set of new stencil values
* given the earlier values and the operation to apply. It does not
* apply any tests. It is intended to be called up to 3 times
* (for the stencil fail operation, for the stencil pass-z fail operation,
@@ -1426,7 +1428,8 @@ gen_stencil_values(struct spe_function *f,
}
-/* This function generates code to get all the necessary possible
+/**
+ * This function generates code to get all the necessary possible
* stencil values. For each of the output registers (fail_reg,
* zfail_reg, and zpass_reg), it either allocates a new register
* and calculates a new set of values based on the stencil operation,
@@ -1511,7 +1514,8 @@ gen_get_stencil_values(struct spe_function *f,
}
}
-/* Note that fbZ_reg may *not* be set on entry, if in fact
+/**
+ * Note that fbZ_reg may *not* be set on entry, if in fact
* the depth test is not enabled. This function must not use
* the register if depth is not enabled.
*/
@@ -1794,6 +1798,205 @@ gen_stencil_depth_test(struct spe_function *f,
/**
+ * Generate depth and/or stencil test code.
+ * \param cell context
+ * \param dsa depth/stencil/alpha state
+ * \param f spe function to emit
+ * \param facing either CELL_FACING_FRONT or CELL_FACING_BACK
+ * \param mask_reg register containing the pixel alive/dead mask
+ * \param depth_tile_reg register containing address of z/stencil tile
+ * \param quad_offset_reg offset to quad from start of tile
+ * \param fragZ_reg register containg fragment Z values
+ */
+static void
+gen_depth_stencil(struct cell_context *cell,
+ const struct pipe_depth_stencil_alpha_state *dsa,
+ struct spe_function *f,
+ uint facing,
+ uint mask_reg,
+ uint depth_tile_reg,
+ uint quad_offset_reg,
+ uint fragZ_reg)
+
+{
+ const enum pipe_format zs_format = cell->framebuffer.zsbuf->format;
+ boolean write_depth_stencil;
+
+ /* We may or may not need to allocate a register for Z or stencil values */
+ boolean fbS_reg_set = false, fbZ_reg_set = false;
+ unsigned int fbS_reg, fbZ_reg = 0;
+
+ /* framebuffer's combined z/stencil values for quad */
+ int fbZS_reg = spe_allocate_available_register(f);
+
+
+ spe_comment(f, 0, "Fetch Z/stencil quad from tile");
+
+ /* fetch quad of depth/stencil values from tile at (x,y) */
+ /* Load: fbZS_reg = memory[depth_tile_reg + offset_reg] */
+ /* XXX Not sure this is allowed if we've only got a 16-bit Z buffer... */
+ spe_lqx(f, fbZS_reg, depth_tile_reg, quad_offset_reg);
+
+ /* From the Z/stencil buffer format, pull out the bits we need for
+ * Z and/or stencil. We'll also convert the incoming fragment Z
+ * value in fragZ_reg from a floating point value in [0.0..1.0] to
+ * an unsigned integer value with the appropriate resolution.
+ * Note that even if depth or stencil is *not* enabled, if it's
+ * present in the buffer, we pull it out and put it back later;
+ * otherwise, we can inadvertently destroy the contents of
+ * buffers we're not supposed to touch (e.g., if the user is
+ * clearing the depth buffer but not the stencil buffer, a
+ * quad of constant depth is drawn over the surface; the stencil
+ * buffer must be maintained).
+ */
+ switch(zs_format) {
+ case PIPE_FORMAT_S8Z24_UNORM: /* fall through */
+ case PIPE_FORMAT_X8Z24_UNORM:
+ /* Pull out both Z and stencil */
+ setup_optional_register(f, &fbZ_reg_set, &fbZ_reg);
+ setup_optional_register(f, &fbS_reg_set, &fbS_reg);
+
+ /* four 24-bit Z values in the low-order bits */
+ spe_and_uint(f, fbZ_reg, fbZS_reg, 0x00ffffff);
+
+ /* Incoming fragZ_reg value is a float in 0.0...1.0; convert
+ * to a 24-bit unsigned integer
+ */
+ spe_cfltu(f, fragZ_reg, fragZ_reg, 32);
+ spe_rotmi(f, fragZ_reg, fragZ_reg, -8);
+
+ /* four 8-bit stencil values in the high-order bits */
+ spe_rotmi(f, fbS_reg, fbZS_reg, -24);
+ break;
+
+ case PIPE_FORMAT_Z24S8_UNORM: /* fall through */
+ case PIPE_FORMAT_Z24X8_UNORM:
+ setup_optional_register(f, &fbZ_reg_set, &fbZ_reg);
+ setup_optional_register(f, &fbS_reg_set, &fbS_reg);
+
+ /* shift by 8 to get the upper 24-bit values */
+ spe_rotmi(f, fbS_reg, fbZS_reg, -8);
+
+ /* Incoming fragZ_reg value is a float in 0.0...1.0; convert
+ * to a 24-bit unsigned integer
+ */
+ spe_cfltu(f, fragZ_reg, fragZ_reg, 32);
+ spe_rotmi(f, fragZ_reg, fragZ_reg, -8);
+
+ /* 8-bit stencil in the low-order bits - mask them out */
+ spe_and_uint(f, fbS_reg, fbZS_reg, 0x000000ff);
+ break;
+
+ case PIPE_FORMAT_Z32_UNORM:
+ setup_optional_register(f, &fbZ_reg_set, &fbZ_reg);
+ /* Copy over 4 32-bit values */
+ spe_move(f, fbZ_reg, fbZS_reg);
+
+ /* Incoming fragZ_reg value is a float in 0.0...1.0; convert
+ * to a 32-bit unsigned integer
+ */
+ spe_cfltu(f, fragZ_reg, fragZ_reg, 32);
+ /* No stencil, so can't do anything there */
+ break;
+
+ case PIPE_FORMAT_Z16_UNORM:
+ /* XXX Not sure this is correct, but it was here before, so we're
+ * going with it for now
+ */
+ setup_optional_register(f, &fbZ_reg_set, &fbZ_reg);
+ /* Copy over 4 32-bit values */
+ spe_move(f, fbZ_reg, fbZS_reg);
+
+ /* Incoming fragZ_reg value is a float in 0.0...1.0; convert
+ * to a 16-bit unsigned integer
+ */
+ spe_cfltu(f, fragZ_reg, fragZ_reg, 32);
+ spe_rotmi(f, fragZ_reg, fragZ_reg, -16);
+ /* No stencil */
+ break;
+
+ default:
+ ASSERT(0); /* invalid format */
+ }
+
+ /* If stencil is enabled, use the stencil-specific code
+ * generator to generate both the stencil and depth (if needed)
+ * tests. Otherwise, if only depth is enabled, generate
+ * a quick depth test. The test generators themselves will
+ * report back whether the depth/stencil buffer has to be
+ * written back.
+ */
+ if (dsa->stencil[0].enabled) {
+ /* This will perform the stencil and depth tests, and update
+ * the mask_reg, fbZ_reg, and fbS_reg as required by the
+ * tests.
+ */
+ ASSERT(fbS_reg_set);
+ spe_comment(f, 0, "Perform stencil test");
+
+ /* Note that fbZ_reg may not be set on entry, if stenciling
+ * is enabled but there's no Z-buffer. The
+ * gen_stencil_depth_test() function must ignore the
+ * fbZ_reg register if depth is not enabled.
+ */
+ write_depth_stencil = gen_stencil_depth_test(f, dsa, facing,
+ mask_reg, fragZ_reg,
+ fbZ_reg, fbS_reg);
+ }
+ else if (dsa->depth.enabled) {
+ int zmask_reg = spe_allocate_available_register(f);
+ ASSERT(fbZ_reg_set);
+ spe_comment(f, 0, "Perform depth test");
+ write_depth_stencil = gen_depth_test(f, dsa, mask_reg, fragZ_reg,
+ fbZ_reg, zmask_reg);
+ spe_release_register(f, zmask_reg);
+ }
+ else {
+ write_depth_stencil = false;
+ }
+
+ if (write_depth_stencil) {
+ /* Merge latest Z and Stencil values into fbZS_reg.
+ * fbZ_reg has four Z vals in bits [23..0] or bits [15..0].
+ * fbS_reg has four 8-bit Z values in bits [7..0].
+ */
+ spe_comment(f, 0, "Store quad's depth/stencil values in tile");
+ if (zs_format == PIPE_FORMAT_S8Z24_UNORM ||
+ zs_format == PIPE_FORMAT_X8Z24_UNORM) {
+ spe_shli(f, fbS_reg, fbS_reg, 24); /* fbS = fbS << 24 */
+ spe_or(f, fbZS_reg, fbS_reg, fbZ_reg); /* fbZS = fbS | fbZ */
+ }
+ else if (zs_format == PIPE_FORMAT_Z24S8_UNORM ||
+ zs_format == PIPE_FORMAT_Z24X8_UNORM) {
+ spe_shli(f, fbZ_reg, fbZ_reg, 8); /* fbZ = fbZ << 8 */
+ spe_or(f, fbZS_reg, fbS_reg, fbZ_reg); /* fbZS = fbS | fbZ */
+ }
+ else if (zs_format == PIPE_FORMAT_Z32_UNORM) {
+ spe_move(f, fbZS_reg, fbZ_reg); /* fbZS = fbZ */
+ }
+ else if (zs_format == PIPE_FORMAT_Z16_UNORM) {
+ spe_move(f, fbZS_reg, fbZ_reg); /* fbZS = fbZ */
+ }
+ else if (zs_format == PIPE_FORMAT_S8_UNORM) {
+ ASSERT(0); /* XXX to do */
+ }
+ else {
+ ASSERT(0); /* bad zs_format */
+ }
+
+ /* Store: memory[depth_tile_reg + quad_offset_reg] = fbZS */
+ spe_stqx(f, fbZS_reg, depth_tile_reg, quad_offset_reg);
+ }
+
+ /* Don't need these any more */
+ release_optional_register(f, &fbZ_reg_set, fbZ_reg);
+ release_optional_register(f, &fbS_reg_set, fbS_reg);
+ spe_release_register(f, fbZS_reg);
+}
+
+
+
+/**
* Generate SPE code to implement the fragment operations (alpha test,
* depth test, stencil test, blending, colormask, and final
* framebuffer write) as specified by the current context state.
@@ -1848,7 +2051,6 @@ cell_gen_fragment_function(struct cell_context *cell,
int quad_offset_reg;
int fbRGBA_reg; /**< framebuffer's RGBA colors for quad */
- int fbZS_reg; /**< framebuffer's combined z/stencil values for quad */
if (cell->debug_flags & CELL_DEBUG_ASM) {
spe_print_code(f, true);
@@ -1871,7 +2073,6 @@ cell_gen_fragment_function(struct cell_context *cell,
quad_offset_reg = spe_allocate_available_register(f);
fbRGBA_reg = spe_allocate_available_register(f);
- fbZS_reg = spe_allocate_available_register(f);
/* compute offset of quad from start of tile, in bytes */
{
@@ -1896,180 +2097,14 @@ cell_gen_fragment_function(struct cell_context *cell,
gen_alpha_test(dsa, f, mask_reg, fragA_reg);
}
- /* If we need the stencil buffers (because one- or two-sided stencil is
- * enabled) or the depth buffer (because the depth test is enabled),
- * go grab them. Note that if either one- or two-sided stencil is
- * enabled, dsa->stencil[0].enabled will be true.
- */
+ /* generate depth and/or stencil test code */
if (dsa->depth.enabled || dsa->stencil[0].enabled) {
- const enum pipe_format zs_format = cell->framebuffer.zsbuf->format;
- boolean write_depth_stencil;
-
- /* We may or may not need to allocate a register for Z or stencil values */
- boolean fbS_reg_set = false, fbZ_reg_set = false;
- unsigned int fbS_reg, fbZ_reg = 0;
-
- spe_comment(f, 0, "Fetch Z/stencil quad from tile");
-
- /* fetch quad of depth/stencil values from tile at (x,y) */
- /* Load: fbZS_reg = memory[depth_tile_reg + offset_reg] */
- /* XXX Not sure this is allowed if we've only got a 16-bit Z buffer... */
- spe_lqx(f, fbZS_reg, depth_tile_reg, quad_offset_reg);
-
- /* From the Z/stencil buffer format, pull out the bits we need for
- * Z and/or stencil. We'll also convert the incoming fragment Z
- * value in fragZ_reg from a floating point value in [0.0..1.0] to
- * an unsigned integer value with the appropriate resolution.
- * Note that even if depth or stencil is *not* enabled, if it's
- * present in the buffer, we pull it out and put it back later;
- * otherwise, we can inadvertently destroy the contents of
- * buffers we're not supposed to touch (e.g., if the user is
- * clearing the depth buffer but not the stencil buffer, a
- * quad of constant depth is drawn over the surface; the stencil
- * buffer must be maintained).
- */
- switch(zs_format) {
- case PIPE_FORMAT_S8Z24_UNORM: /* fall through */
- case PIPE_FORMAT_X8Z24_UNORM:
- /* Pull out both Z and stencil */
- setup_optional_register(f, &fbZ_reg_set, &fbZ_reg);
- setup_optional_register(f, &fbS_reg_set, &fbS_reg);
-
- /* four 24-bit Z values in the low-order bits */
- spe_and_uint(f, fbZ_reg, fbZS_reg, 0x00ffffff);
-
- /* Incoming fragZ_reg value is a float in 0.0...1.0; convert
- * to a 24-bit unsigned integer
- */
- spe_cfltu(f, fragZ_reg, fragZ_reg, 32);
- spe_rotmi(f, fragZ_reg, fragZ_reg, -8);
-
- /* four 8-bit stencil values in the high-order bits */
- spe_rotmi(f, fbS_reg, fbZS_reg, -24);
- break;
-
- case PIPE_FORMAT_Z24S8_UNORM: /* fall through */
- case PIPE_FORMAT_Z24X8_UNORM:
- setup_optional_register(f, &fbZ_reg_set, &fbZ_reg);
- setup_optional_register(f, &fbS_reg_set, &fbS_reg);
-
- /* shift by 8 to get the upper 24-bit values */
- spe_rotmi(f, fbS_reg, fbZS_reg, -8);
-
- /* Incoming fragZ_reg value is a float in 0.0...1.0; convert
- * to a 24-bit unsigned integer
- */
- spe_cfltu(f, fragZ_reg, fragZ_reg, 32);
- spe_rotmi(f, fragZ_reg, fragZ_reg, -8);
-
- /* 8-bit stencil in the low-order bits - mask them out */
- spe_and_uint(f, fbS_reg, fbZS_reg, 0x000000ff);
- break;
-
- case PIPE_FORMAT_Z32_UNORM:
- setup_optional_register(f, &fbZ_reg_set, &fbZ_reg);
- /* Copy over 4 32-bit values */
- spe_move(f, fbZ_reg, fbZS_reg);
-
- /* Incoming fragZ_reg value is a float in 0.0...1.0; convert
- * to a 32-bit unsigned integer
- */
- spe_cfltu(f, fragZ_reg, fragZ_reg, 32);
- /* No stencil, so can't do anything there */
- break;
-
- case PIPE_FORMAT_Z16_UNORM:
- /* XXX Not sure this is correct, but it was here before, so we're
- * going with it for now
- */
- setup_optional_register(f, &fbZ_reg_set, &fbZ_reg);
- /* Copy over 4 32-bit values */
- spe_move(f, fbZ_reg, fbZS_reg);
-
- /* Incoming fragZ_reg value is a float in 0.0...1.0; convert
- * to a 16-bit unsigned integer
- */
- spe_cfltu(f, fragZ_reg, fragZ_reg, 32);
- spe_rotmi(f, fragZ_reg, fragZ_reg, -16);
- /* No stencil */
- break;
-
- default:
- ASSERT(0); /* invalid format */
- }
-
- /* If stencil is enabled, use the stencil-specific code
- * generator to generate both the stencil and depth (if needed)
- * tests. Otherwise, if only depth is enabled, generate
- * a quick depth test. The test generators themselves will
- * report back whether the depth/stencil buffer has to be
- * written back.
- */
- if (dsa->stencil[0].enabled) {
- /* This will perform the stencil and depth tests, and update
- * the mask_reg, fbZ_reg, and fbS_reg as required by the
- * tests.
- */
- ASSERT(fbS_reg_set);
- spe_comment(f, 0, "Perform stencil test");
-
- /* Note that fbZ_reg may not be set on entry, if stenciling
- * is enabled but there's no Z-buffer. The
- * gen_stencil_depth_test() function must ignore the
- * fbZ_reg register if depth is not enabled.
- */
- write_depth_stencil = gen_stencil_depth_test(f, dsa, facing,
- mask_reg, fragZ_reg,
- fbZ_reg, fbS_reg);
- }
- else if (dsa->depth.enabled) {
- int zmask_reg = spe_allocate_available_register(f);
- ASSERT(fbZ_reg_set);
- spe_comment(f, 0, "Perform depth test");
- write_depth_stencil = gen_depth_test(f, dsa, mask_reg, fragZ_reg,
- fbZ_reg, zmask_reg);
- spe_release_register(f, zmask_reg);
- }
- else {
- write_depth_stencil = false;
- }
-
- if (write_depth_stencil) {
- /* Merge latest Z and Stencil values into fbZS_reg.
- * fbZ_reg has four Z vals in bits [23..0] or bits [15..0].
- * fbS_reg has four 8-bit Z values in bits [7..0].
- */
- spe_comment(f, 0, "Store quad's depth/stencil values in tile");
- if (zs_format == PIPE_FORMAT_S8Z24_UNORM ||
- zs_format == PIPE_FORMAT_X8Z24_UNORM) {
- spe_shli(f, fbS_reg, fbS_reg, 24); /* fbS = fbS << 24 */
- spe_or(f, fbZS_reg, fbS_reg, fbZ_reg); /* fbZS = fbS | fbZ */
- }
- else if (zs_format == PIPE_FORMAT_Z24S8_UNORM ||
- zs_format == PIPE_FORMAT_Z24X8_UNORM) {
- spe_shli(f, fbZ_reg, fbZ_reg, 8); /* fbZ = fbZ << 8 */
- spe_or(f, fbZS_reg, fbS_reg, fbZ_reg); /* fbZS = fbS | fbZ */
- }
- else if (zs_format == PIPE_FORMAT_Z32_UNORM) {
- spe_move(f, fbZS_reg, fbZ_reg); /* fbZS = fbZ */
- }
- else if (zs_format == PIPE_FORMAT_Z16_UNORM) {
- spe_move(f, fbZS_reg, fbZ_reg); /* fbZS = fbZ */
- }
- else if (zs_format == PIPE_FORMAT_S8_UNORM) {
- ASSERT(0); /* XXX to do */
- }
- else {
- ASSERT(0); /* bad zs_format */
- }
-
- /* Store: memory[depth_tile_reg + quad_offset_reg] = fbZS */
- spe_stqx(f, fbZS_reg, depth_tile_reg, quad_offset_reg);
- }
-
- /* Don't need these any more */
- release_optional_register(f, &fbZ_reg_set, fbZ_reg);
- release_optional_register(f, &fbS_reg_set, fbS_reg);
+ gen_depth_stencil(cell, dsa, f,
+ facing,
+ mask_reg,
+ depth_tile_reg,
+ quad_offset_reg,
+ fragZ_reg);
}
/* Get framebuffer quad/colors. We'll need these for blending,
@@ -2133,7 +2168,6 @@ cell_gen_fragment_function(struct cell_context *cell,
spe_bi(f, SPE_REG_RA, 0, 0); /* return from function call */
spe_release_register(f, fbRGBA_reg);
- spe_release_register(f, fbZS_reg);
spe_release_register(f, quad_offset_reg);
if (cell->debug_flags & CELL_DEBUG_ASM) {