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authorDave Airlie <[email protected]>2014-08-14 18:48:57 +1000
committerIlia Mirkin <[email protected]>2015-02-19 00:28:35 -0500
commite6354a2850d6735b857298ad206a97db0de47fd6 (patch)
tree54fadccab9277c244ca2e2fa31bb586b0821919d /src
parent2e626318e0c3ac08b8f9a6ef53325e05177b131b (diff)
glsl: implement double builtin functions
This implements the bulk of the builtin functions for fp64 support. Signed-off-by: Dave Airlie <[email protected]> Reviewed-by: Ilia Mirkin <[email protected]>
Diffstat (limited to 'src')
-rw-r--r--src/glsl/builtin_functions.cpp751
1 files changed, 492 insertions, 259 deletions
diff --git a/src/glsl/builtin_functions.cpp b/src/glsl/builtin_functions.cpp
index bb7fbcdc17d..fb31dad364b 100644
--- a/src/glsl/builtin_functions.cpp
+++ b/src/glsl/builtin_functions.cpp
@@ -381,6 +381,12 @@ gs_streams(const _mesa_glsl_parse_state *state)
return gpu_shader5(state) && gs_only(state);
}
+static bool
+fp64(const _mesa_glsl_parse_state *state)
+{
+ return state->has_double();
+}
+
/** @} */
/******************************************************************************/
@@ -436,6 +442,7 @@ private:
ir_constant *imm(float f, unsigned vector_elements=1);
ir_constant *imm(int i, unsigned vector_elements=1);
ir_constant *imm(unsigned u, unsigned vector_elements=1);
+ ir_constant *imm(double d, unsigned vector_elements=1);
ir_constant *imm(const glsl_type *type, const ir_constant_data &);
ir_dereference_variable *var_ref(ir_variable *var);
ir_dereference_array *array_ref(ir_variable *var, int i);
@@ -526,29 +533,29 @@ private:
B1(log)
B1(exp2)
B1(log2)
- B1(sqrt)
- B1(inversesqrt)
- B1(abs)
- B1(sign)
- B1(floor)
- B1(trunc)
- B1(round)
- B1(roundEven)
- B1(ceil)
- B1(fract)
+ BA1(sqrt)
+ BA1(inversesqrt)
+ BA1(abs)
+ BA1(sign)
+ BA1(floor)
+ BA1(trunc)
+ BA1(round)
+ BA1(roundEven)
+ BA1(ceil)
+ BA1(fract)
B2(mod)
- B1(modf)
+ BA1(modf)
BA2(min)
BA2(max)
BA2(clamp)
- B2(mix_lrp)
+ BA2(mix_lrp)
ir_function_signature *_mix_sel(builtin_available_predicate avail,
const glsl_type *val_type,
const glsl_type *blend_type);
- B2(step)
- B2(smoothstep)
- B1(isnan)
- B1(isinf)
+ BA2(step)
+ BA2(smoothstep)
+ BA1(isnan)
+ BA1(isinf)
B1(floatBitsToInt)
B1(floatBitsToUint)
B1(intBitsToFloat)
@@ -563,24 +570,27 @@ private:
ir_function_signature *_unpackSnorm4x8(builtin_available_predicate avail);
ir_function_signature *_packHalf2x16(builtin_available_predicate avail);
ir_function_signature *_unpackHalf2x16(builtin_available_predicate avail);
- B1(length)
- B1(distance);
- B1(dot);
- B1(cross);
- B1(normalize);
+ ir_function_signature *_packDouble2x32(builtin_available_predicate avail);
+ ir_function_signature *_unpackDouble2x32(builtin_available_predicate avail);
+
+ BA1(length)
+ BA1(distance);
+ BA1(dot);
+ BA1(cross);
+ BA1(normalize);
B0(ftransform);
- B1(faceforward);
- B1(reflect);
- B1(refract);
- B1(matrixCompMult);
- B1(outerProduct);
- B0(determinant_mat2);
- B0(determinant_mat3);
- B0(determinant_mat4);
- B0(inverse_mat2);
- B0(inverse_mat3);
- B0(inverse_mat4);
- B1(transpose);
+ BA1(faceforward);
+ BA1(reflect);
+ BA1(refract);
+ BA1(matrixCompMult);
+ BA1(outerProduct);
+ BA1(determinant_mat2);
+ BA1(determinant_mat3);
+ BA1(determinant_mat4);
+ BA1(inverse_mat2);
+ BA1(inverse_mat3);
+ BA1(inverse_mat4);
+ BA1(transpose);
BA1(lessThan);
BA1(lessThanEqual);
BA1(greaterThan);
@@ -644,9 +654,10 @@ private:
B1(bitCount)
B1(findLSB)
B1(findMSB)
- B1(fma)
+ BA1(fma)
B2(ldexp)
B2(frexp)
+ B2(dfrexp)
B1(uaddCarry)
B1(usubBorrow)
B1(mulExtended)
@@ -815,6 +826,42 @@ builtin_builder::create_builtins()
_##NAME(glsl_type::vec4_type), \
NULL);
+#define FD(NAME) \
+ add_function(#NAME, \
+ _##NAME(always_available, glsl_type::float_type), \
+ _##NAME(always_available, glsl_type::vec2_type), \
+ _##NAME(always_available, glsl_type::vec3_type), \
+ _##NAME(always_available, glsl_type::vec4_type), \
+ _##NAME(fp64, glsl_type::double_type), \
+ _##NAME(fp64, glsl_type::dvec2_type), \
+ _##NAME(fp64, glsl_type::dvec3_type), \
+ _##NAME(fp64, glsl_type::dvec4_type), \
+ NULL);
+
+#define FD130(NAME) \
+ add_function(#NAME, \
+ _##NAME(v130, glsl_type::float_type), \
+ _##NAME(v130, glsl_type::vec2_type), \
+ _##NAME(v130, glsl_type::vec3_type), \
+ _##NAME(v130, glsl_type::vec4_type), \
+ _##NAME(fp64, glsl_type::double_type), \
+ _##NAME(fp64, glsl_type::dvec2_type), \
+ _##NAME(fp64, glsl_type::dvec3_type), \
+ _##NAME(fp64, glsl_type::dvec4_type), \
+ NULL);
+
+#define FDGS5(NAME) \
+ add_function(#NAME, \
+ _##NAME(gpu_shader5, glsl_type::float_type), \
+ _##NAME(gpu_shader5, glsl_type::vec2_type), \
+ _##NAME(gpu_shader5, glsl_type::vec3_type), \
+ _##NAME(gpu_shader5, glsl_type::vec4_type), \
+ _##NAME(fp64, glsl_type::double_type), \
+ _##NAME(fp64, glsl_type::dvec2_type), \
+ _##NAME(fp64, glsl_type::dvec3_type), \
+ _##NAME(fp64, glsl_type::dvec4_type), \
+ NULL);
+
#define FI(NAME) \
add_function(#NAME, \
_##NAME(glsl_type::float_type), \
@@ -827,7 +874,23 @@ builtin_builder::create_builtins()
_##NAME(glsl_type::ivec4_type), \
NULL);
-#define FIU(NAME) \
+#define FID(NAME) \
+ add_function(#NAME, \
+ _##NAME(always_available, glsl_type::float_type), \
+ _##NAME(always_available, glsl_type::vec2_type), \
+ _##NAME(always_available, glsl_type::vec3_type), \
+ _##NAME(always_available, glsl_type::vec4_type), \
+ _##NAME(always_available, glsl_type::int_type), \
+ _##NAME(always_available, glsl_type::ivec2_type), \
+ _##NAME(always_available, glsl_type::ivec3_type), \
+ _##NAME(always_available, glsl_type::ivec4_type), \
+ _##NAME(fp64, glsl_type::double_type), \
+ _##NAME(fp64, glsl_type::dvec2_type), \
+ _##NAME(fp64, glsl_type::dvec3_type), \
+ _##NAME(fp64, glsl_type::dvec4_type), \
+ NULL);
+
+#define FIUD(NAME) \
add_function(#NAME, \
_##NAME(always_available, glsl_type::float_type), \
_##NAME(always_available, glsl_type::vec2_type), \
@@ -843,6 +906,10 @@ builtin_builder::create_builtins()
_##NAME(v130, glsl_type::uvec2_type), \
_##NAME(v130, glsl_type::uvec3_type), \
_##NAME(v130, glsl_type::uvec4_type), \
+ _##NAME(fp64, glsl_type::double_type), \
+ _##NAME(fp64, glsl_type::dvec2_type), \
+ _##NAME(fp64, glsl_type::dvec3_type), \
+ _##NAME(fp64, glsl_type::dvec4_type), \
NULL);
#define IU(NAME) \
@@ -858,7 +925,7 @@ builtin_builder::create_builtins()
_##NAME(glsl_type::uvec4_type), \
NULL);
-#define FIUB(NAME) \
+#define FIUBD(NAME) \
add_function(#NAME, \
_##NAME(always_available, glsl_type::float_type), \
_##NAME(always_available, glsl_type::vec2_type), \
@@ -879,9 +946,14 @@ builtin_builder::create_builtins()
_##NAME(always_available, glsl_type::bvec2_type), \
_##NAME(always_available, glsl_type::bvec3_type), \
_##NAME(always_available, glsl_type::bvec4_type), \
+ \
+ _##NAME(fp64, glsl_type::double_type), \
+ _##NAME(fp64, glsl_type::dvec2_type), \
+ _##NAME(fp64, glsl_type::dvec3_type), \
+ _##NAME(fp64, glsl_type::dvec4_type), \
NULL);
-#define FIU2_MIXED(NAME) \
+#define FIUD2_MIXED(NAME) \
add_function(#NAME, \
_##NAME(always_available, glsl_type::float_type, glsl_type::float_type), \
_##NAME(always_available, glsl_type::vec2_type, glsl_type::float_type), \
@@ -909,6 +981,14 @@ builtin_builder::create_builtins()
_##NAME(v130, glsl_type::uvec2_type, glsl_type::uvec2_type), \
_##NAME(v130, glsl_type::uvec3_type, glsl_type::uvec3_type), \
_##NAME(v130, glsl_type::uvec4_type, glsl_type::uvec4_type), \
+ \
+ _##NAME(fp64, glsl_type::double_type, glsl_type::double_type), \
+ _##NAME(fp64, glsl_type::dvec2_type, glsl_type::double_type), \
+ _##NAME(fp64, glsl_type::dvec3_type, glsl_type::double_type), \
+ _##NAME(fp64, glsl_type::dvec4_type, glsl_type::double_type), \
+ _##NAME(fp64, glsl_type::dvec2_type, glsl_type::dvec2_type), \
+ _##NAME(fp64, glsl_type::dvec3_type, glsl_type::dvec3_type), \
+ _##NAME(fp64, glsl_type::dvec4_type, glsl_type::dvec4_type), \
NULL);
F(radians)
@@ -941,16 +1021,16 @@ builtin_builder::create_builtins()
F(log)
F(exp2)
F(log2)
- F(sqrt)
- F(inversesqrt)
- FI(abs)
- FI(sign)
- F(floor)
- F(trunc)
- F(round)
- F(roundEven)
- F(ceil)
- F(fract)
+ FD(sqrt)
+ FD(inversesqrt)
+ FID(abs)
+ FID(sign)
+ FD(floor)
+ FD(trunc)
+ FD(round)
+ FD(roundEven)
+ FD(ceil)
+ FD(fract)
add_function("mod",
_mod(glsl_type::float_type, glsl_type::float_type),
@@ -961,29 +1041,52 @@ builtin_builder::create_builtins()
_mod(glsl_type::vec2_type, glsl_type::vec2_type),
_mod(glsl_type::vec3_type, glsl_type::vec3_type),
_mod(glsl_type::vec4_type, glsl_type::vec4_type),
+
+ _mod(glsl_type::double_type, glsl_type::double_type),
+ _mod(glsl_type::dvec2_type, glsl_type::double_type),
+ _mod(glsl_type::dvec3_type, glsl_type::double_type),
+ _mod(glsl_type::dvec4_type, glsl_type::double_type),
+
+ _mod(glsl_type::dvec2_type, glsl_type::dvec2_type),
+ _mod(glsl_type::dvec3_type, glsl_type::dvec3_type),
+ _mod(glsl_type::dvec4_type, glsl_type::dvec4_type),
NULL);
- F(modf)
+ FD(modf)
- FIU2_MIXED(min)
- FIU2_MIXED(max)
- FIU2_MIXED(clamp)
+ FIUD2_MIXED(min)
+ FIUD2_MIXED(max)
+ FIUD2_MIXED(clamp)
add_function("mix",
- _mix_lrp(glsl_type::float_type, glsl_type::float_type),
- _mix_lrp(glsl_type::vec2_type, glsl_type::float_type),
- _mix_lrp(glsl_type::vec3_type, glsl_type::float_type),
- _mix_lrp(glsl_type::vec4_type, glsl_type::float_type),
+ _mix_lrp(always_available, glsl_type::float_type, glsl_type::float_type),
+ _mix_lrp(always_available, glsl_type::vec2_type, glsl_type::float_type),
+ _mix_lrp(always_available, glsl_type::vec3_type, glsl_type::float_type),
+ _mix_lrp(always_available, glsl_type::vec4_type, glsl_type::float_type),
- _mix_lrp(glsl_type::vec2_type, glsl_type::vec2_type),
- _mix_lrp(glsl_type::vec3_type, glsl_type::vec3_type),
- _mix_lrp(glsl_type::vec4_type, glsl_type::vec4_type),
+ _mix_lrp(always_available, glsl_type::vec2_type, glsl_type::vec2_type),
+ _mix_lrp(always_available, glsl_type::vec3_type, glsl_type::vec3_type),
+ _mix_lrp(always_available, glsl_type::vec4_type, glsl_type::vec4_type),
+
+ _mix_lrp(fp64, glsl_type::double_type, glsl_type::double_type),
+ _mix_lrp(fp64, glsl_type::dvec2_type, glsl_type::double_type),
+ _mix_lrp(fp64, glsl_type::dvec3_type, glsl_type::double_type),
+ _mix_lrp(fp64, glsl_type::dvec4_type, glsl_type::double_type),
+
+ _mix_lrp(fp64, glsl_type::dvec2_type, glsl_type::dvec2_type),
+ _mix_lrp(fp64, glsl_type::dvec3_type, glsl_type::dvec3_type),
+ _mix_lrp(fp64, glsl_type::dvec4_type, glsl_type::dvec4_type),
_mix_sel(v130, glsl_type::float_type, glsl_type::bool_type),
_mix_sel(v130, glsl_type::vec2_type, glsl_type::bvec2_type),
_mix_sel(v130, glsl_type::vec3_type, glsl_type::bvec3_type),
_mix_sel(v130, glsl_type::vec4_type, glsl_type::bvec4_type),
+ _mix_sel(fp64, glsl_type::double_type, glsl_type::bool_type),
+ _mix_sel(fp64, glsl_type::dvec2_type, glsl_type::bvec2_type),
+ _mix_sel(fp64, glsl_type::dvec3_type, glsl_type::bvec3_type),
+ _mix_sel(fp64, glsl_type::dvec4_type, glsl_type::bvec4_type),
+
_mix_sel(shader_integer_mix, glsl_type::int_type, glsl_type::bool_type),
_mix_sel(shader_integer_mix, glsl_type::ivec2_type, glsl_type::bvec2_type),
_mix_sel(shader_integer_mix, glsl_type::ivec3_type, glsl_type::bvec3_type),
@@ -1001,29 +1104,45 @@ builtin_builder::create_builtins()
NULL);
add_function("step",
- _step(glsl_type::float_type, glsl_type::float_type),
- _step(glsl_type::float_type, glsl_type::vec2_type),
- _step(glsl_type::float_type, glsl_type::vec3_type),
- _step(glsl_type::float_type, glsl_type::vec4_type),
-
- _step(glsl_type::vec2_type, glsl_type::vec2_type),
- _step(glsl_type::vec3_type, glsl_type::vec3_type),
- _step(glsl_type::vec4_type, glsl_type::vec4_type),
+ _step(always_available, glsl_type::float_type, glsl_type::float_type),
+ _step(always_available, glsl_type::float_type, glsl_type::vec2_type),
+ _step(always_available, glsl_type::float_type, glsl_type::vec3_type),
+ _step(always_available, glsl_type::float_type, glsl_type::vec4_type),
+
+ _step(always_available, glsl_type::vec2_type, glsl_type::vec2_type),
+ _step(always_available, glsl_type::vec3_type, glsl_type::vec3_type),
+ _step(always_available, glsl_type::vec4_type, glsl_type::vec4_type),
+ _step(fp64, glsl_type::double_type, glsl_type::double_type),
+ _step(fp64, glsl_type::double_type, glsl_type::dvec2_type),
+ _step(fp64, glsl_type::double_type, glsl_type::dvec3_type),
+ _step(fp64, glsl_type::double_type, glsl_type::dvec4_type),
+
+ _step(fp64, glsl_type::dvec2_type, glsl_type::dvec2_type),
+ _step(fp64, glsl_type::dvec3_type, glsl_type::dvec3_type),
+ _step(fp64, glsl_type::dvec4_type, glsl_type::dvec4_type),
NULL);
add_function("smoothstep",
- _smoothstep(glsl_type::float_type, glsl_type::float_type),
- _smoothstep(glsl_type::float_type, glsl_type::vec2_type),
- _smoothstep(glsl_type::float_type, glsl_type::vec3_type),
- _smoothstep(glsl_type::float_type, glsl_type::vec4_type),
-
- _smoothstep(glsl_type::vec2_type, glsl_type::vec2_type),
- _smoothstep(glsl_type::vec3_type, glsl_type::vec3_type),
- _smoothstep(glsl_type::vec4_type, glsl_type::vec4_type),
+ _smoothstep(always_available, glsl_type::float_type, glsl_type::float_type),
+ _smoothstep(always_available, glsl_type::float_type, glsl_type::vec2_type),
+ _smoothstep(always_available, glsl_type::float_type, glsl_type::vec3_type),
+ _smoothstep(always_available, glsl_type::float_type, glsl_type::vec4_type),
+
+ _smoothstep(always_available, glsl_type::vec2_type, glsl_type::vec2_type),
+ _smoothstep(always_available, glsl_type::vec3_type, glsl_type::vec3_type),
+ _smoothstep(always_available, glsl_type::vec4_type, glsl_type::vec4_type),
+ _smoothstep(fp64, glsl_type::double_type, glsl_type::double_type),
+ _smoothstep(fp64, glsl_type::double_type, glsl_type::dvec2_type),
+ _smoothstep(fp64, glsl_type::double_type, glsl_type::dvec3_type),
+ _smoothstep(fp64, glsl_type::double_type, glsl_type::dvec4_type),
+
+ _smoothstep(fp64, glsl_type::dvec2_type, glsl_type::dvec2_type),
+ _smoothstep(fp64, glsl_type::dvec3_type, glsl_type::dvec3_type),
+ _smoothstep(fp64, glsl_type::dvec4_type, glsl_type::dvec4_type),
NULL);
- F(isnan)
- F(isinf)
+ FD130(isnan)
+ FD130(isinf)
F(floatBitsToInt)
F(floatBitsToUint)
@@ -1050,68 +1169,106 @@ builtin_builder::create_builtins()
add_function("unpackSnorm4x8", _unpackSnorm4x8(shader_packing_or_gpu_shader5), NULL);
add_function("packHalf2x16", _packHalf2x16(shader_packing_or_es3), NULL);
add_function("unpackHalf2x16", _unpackHalf2x16(shader_packing_or_es3), NULL);
+ add_function("packDouble2x32", _packDouble2x32(fp64), NULL);
+ add_function("unpackDouble2x32", _unpackDouble2x32(fp64), NULL);
+
- F(length)
- F(distance)
- F(dot)
+ FD(length)
+ FD(distance)
+ FD(dot)
- add_function("cross", _cross(glsl_type::vec3_type), NULL);
+ add_function("cross", _cross(always_available, glsl_type::vec3_type),
+ _cross(fp64, glsl_type::dvec3_type), NULL);
- F(normalize)
+ FD(normalize)
add_function("ftransform", _ftransform(), NULL);
- F(faceforward)
- F(reflect)
- F(refract)
+ FD(faceforward)
+ FD(reflect)
+ FD(refract)
// ...
add_function("matrixCompMult",
- _matrixCompMult(glsl_type::mat2_type),
- _matrixCompMult(glsl_type::mat3_type),
- _matrixCompMult(glsl_type::mat4_type),
- _matrixCompMult(glsl_type::mat2x3_type),
- _matrixCompMult(glsl_type::mat2x4_type),
- _matrixCompMult(glsl_type::mat3x2_type),
- _matrixCompMult(glsl_type::mat3x4_type),
- _matrixCompMult(glsl_type::mat4x2_type),
- _matrixCompMult(glsl_type::mat4x3_type),
+ _matrixCompMult(always_available, glsl_type::mat2_type),
+ _matrixCompMult(always_available, glsl_type::mat3_type),
+ _matrixCompMult(always_available, glsl_type::mat4_type),
+ _matrixCompMult(always_available, glsl_type::mat2x3_type),
+ _matrixCompMult(always_available, glsl_type::mat2x4_type),
+ _matrixCompMult(always_available, glsl_type::mat3x2_type),
+ _matrixCompMult(always_available, glsl_type::mat3x4_type),
+ _matrixCompMult(always_available, glsl_type::mat4x2_type),
+ _matrixCompMult(always_available, glsl_type::mat4x3_type),
+ _matrixCompMult(fp64, glsl_type::dmat2_type),
+ _matrixCompMult(fp64, glsl_type::dmat3_type),
+ _matrixCompMult(fp64, glsl_type::dmat4_type),
+ _matrixCompMult(fp64, glsl_type::dmat2x3_type),
+ _matrixCompMult(fp64, glsl_type::dmat2x4_type),
+ _matrixCompMult(fp64, glsl_type::dmat3x2_type),
+ _matrixCompMult(fp64, glsl_type::dmat3x4_type),
+ _matrixCompMult(fp64, glsl_type::dmat4x2_type),
+ _matrixCompMult(fp64, glsl_type::dmat4x3_type),
NULL);
add_function("outerProduct",
- _outerProduct(glsl_type::mat2_type),
- _outerProduct(glsl_type::mat3_type),
- _outerProduct(glsl_type::mat4_type),
- _outerProduct(glsl_type::mat2x3_type),
- _outerProduct(glsl_type::mat2x4_type),
- _outerProduct(glsl_type::mat3x2_type),
- _outerProduct(glsl_type::mat3x4_type),
- _outerProduct(glsl_type::mat4x2_type),
- _outerProduct(glsl_type::mat4x3_type),
+ _outerProduct(v120, glsl_type::mat2_type),
+ _outerProduct(v120, glsl_type::mat3_type),
+ _outerProduct(v120, glsl_type::mat4_type),
+ _outerProduct(v120, glsl_type::mat2x3_type),
+ _outerProduct(v120, glsl_type::mat2x4_type),
+ _outerProduct(v120, glsl_type::mat3x2_type),
+ _outerProduct(v120, glsl_type::mat3x4_type),
+ _outerProduct(v120, glsl_type::mat4x2_type),
+ _outerProduct(v120, glsl_type::mat4x3_type),
+ _outerProduct(fp64, glsl_type::dmat2_type),
+ _outerProduct(fp64, glsl_type::dmat3_type),
+ _outerProduct(fp64, glsl_type::dmat4_type),
+ _outerProduct(fp64, glsl_type::dmat2x3_type),
+ _outerProduct(fp64, glsl_type::dmat2x4_type),
+ _outerProduct(fp64, glsl_type::dmat3x2_type),
+ _outerProduct(fp64, glsl_type::dmat3x4_type),
+ _outerProduct(fp64, glsl_type::dmat4x2_type),
+ _outerProduct(fp64, glsl_type::dmat4x3_type),
NULL);
add_function("determinant",
- _determinant_mat2(),
- _determinant_mat3(),
- _determinant_mat4(),
+ _determinant_mat2(v120, glsl_type::mat2_type),
+ _determinant_mat3(v120, glsl_type::mat3_type),
+ _determinant_mat4(v120, glsl_type::mat4_type),
+ _determinant_mat2(fp64, glsl_type::dmat2_type),
+ _determinant_mat3(fp64, glsl_type::dmat3_type),
+ _determinant_mat4(fp64, glsl_type::dmat4_type),
+
NULL);
add_function("inverse",
- _inverse_mat2(),
- _inverse_mat3(),
- _inverse_mat4(),
+ _inverse_mat2(v120, glsl_type::mat2_type),
+ _inverse_mat3(v120, glsl_type::mat3_type),
+ _inverse_mat4(v120, glsl_type::mat4_type),
+ _inverse_mat2(fp64, glsl_type::dmat2_type),
+ _inverse_mat3(fp64, glsl_type::dmat3_type),
+ _inverse_mat4(fp64, glsl_type::dmat4_type),
NULL);
add_function("transpose",
- _transpose(glsl_type::mat2_type),
- _transpose(glsl_type::mat3_type),
- _transpose(glsl_type::mat4_type),
- _transpose(glsl_type::mat2x3_type),
- _transpose(glsl_type::mat2x4_type),
- _transpose(glsl_type::mat3x2_type),
- _transpose(glsl_type::mat3x4_type),
- _transpose(glsl_type::mat4x2_type),
- _transpose(glsl_type::mat4x3_type),
+ _transpose(v120, glsl_type::mat2_type),
+ _transpose(v120, glsl_type::mat3_type),
+ _transpose(v120, glsl_type::mat4_type),
+ _transpose(v120, glsl_type::mat2x3_type),
+ _transpose(v120, glsl_type::mat2x4_type),
+ _transpose(v120, glsl_type::mat3x2_type),
+ _transpose(v120, glsl_type::mat3x4_type),
+ _transpose(v120, glsl_type::mat4x2_type),
+ _transpose(v120, glsl_type::mat4x3_type),
+ _transpose(fp64, glsl_type::dmat2_type),
+ _transpose(fp64, glsl_type::dmat3_type),
+ _transpose(fp64, glsl_type::dmat4_type),
+ _transpose(fp64, glsl_type::dmat2x3_type),
+ _transpose(fp64, glsl_type::dmat2x4_type),
+ _transpose(fp64, glsl_type::dmat3x2_type),
+ _transpose(fp64, glsl_type::dmat3x4_type),
+ _transpose(fp64, glsl_type::dmat4x2_type),
+ _transpose(fp64, glsl_type::dmat4x3_type),
NULL);
- FIU(lessThan)
- FIU(lessThanEqual)
- FIU(greaterThan)
- FIU(greaterThanEqual)
- FIUB(notEqual)
- FIUB(equal)
+ FIUD(lessThan)
+ FIUD(lessThanEqual)
+ FIUD(greaterThan)
+ FIUD(greaterThanEqual)
+ FIUBD(notEqual)
+ FIUBD(equal)
add_function("any",
_any(glsl_type::bvec2_type),
@@ -2180,13 +2337,17 @@ builtin_builder::create_builtins()
IU(bitCount)
IU(findLSB)
IU(findMSB)
- F(fma)
+ FDGS5(fma)
add_function("ldexp",
_ldexp(glsl_type::float_type, glsl_type::int_type),
_ldexp(glsl_type::vec2_type, glsl_type::ivec2_type),
_ldexp(glsl_type::vec3_type, glsl_type::ivec3_type),
_ldexp(glsl_type::vec4_type, glsl_type::ivec4_type),
+ _ldexp(glsl_type::double_type, glsl_type::int_type),
+ _ldexp(glsl_type::dvec2_type, glsl_type::ivec2_type),
+ _ldexp(glsl_type::dvec3_type, glsl_type::ivec3_type),
+ _ldexp(glsl_type::dvec4_type, glsl_type::ivec4_type),
NULL);
add_function("frexp",
@@ -2194,6 +2355,10 @@ builtin_builder::create_builtins()
_frexp(glsl_type::vec2_type, glsl_type::ivec2_type),
_frexp(glsl_type::vec3_type, glsl_type::ivec3_type),
_frexp(glsl_type::vec4_type, glsl_type::ivec4_type),
+ _dfrexp(glsl_type::double_type, glsl_type::int_type),
+ _dfrexp(glsl_type::dvec2_type, glsl_type::ivec2_type),
+ _dfrexp(glsl_type::dvec3_type, glsl_type::ivec3_type),
+ _dfrexp(glsl_type::dvec4_type, glsl_type::ivec4_type),
NULL);
add_function("uaddCarry",
_uaddCarry(glsl_type::uint_type),
@@ -2310,8 +2475,8 @@ builtin_builder::create_builtins()
#undef F
#undef FI
-#undef FIU
-#undef FIUB
+#undef FIUD
+#undef FIUBD
#undef FIU2_MIXED
}
@@ -2470,11 +2635,19 @@ builtin_builder::imm(unsigned u, unsigned vector_elements)
}
ir_constant *
+builtin_builder::imm(double d, unsigned vector_elements)
+{
+ return new(mem_ctx) ir_constant(d, vector_elements);
+}
+
+ir_constant *
builtin_builder::imm(const glsl_type *type, const ir_constant_data &data)
{
return new(mem_ctx) ir_constant(type, &data);
}
+#define IMM_FP(type, val) (type->base_type == GLSL_TYPE_DOUBLE) ? imm(val) : imm((float)val)
+
ir_dereference_variable *
builtin_builder::var_ref(ir_variable *var)
{
@@ -2550,6 +2723,13 @@ builtin_builder::_##NAME(const glsl_type *type) \
return unop(&AVAIL, OPCODE, type, type); \
}
+#define UNOPA(NAME, OPCODE) \
+ir_function_signature * \
+builtin_builder::_##NAME(builtin_available_predicate avail, const glsl_type *type) \
+{ \
+ return unop(avail, OPCODE, type, type); \
+}
+
ir_function_signature *
builtin_builder::binop(ir_expression_operation opcode,
builtin_available_predicate avail,
@@ -2855,19 +3035,19 @@ UNOP(exp, ir_unop_exp, always_available)
UNOP(log, ir_unop_log, always_available)
UNOP(exp2, ir_unop_exp2, always_available)
UNOP(log2, ir_unop_log2, always_available)
-UNOP(sqrt, ir_unop_sqrt, always_available)
-UNOP(inversesqrt, ir_unop_rsq, always_available)
+UNOPA(sqrt, ir_unop_sqrt)
+UNOPA(inversesqrt, ir_unop_rsq)
/** @} */
-UNOP(abs, ir_unop_abs, always_available)
-UNOP(sign, ir_unop_sign, always_available)
-UNOP(floor, ir_unop_floor, always_available)
-UNOP(trunc, ir_unop_trunc, v130)
-UNOP(round, ir_unop_round_even, always_available)
-UNOP(roundEven, ir_unop_round_even, always_available)
-UNOP(ceil, ir_unop_ceil, always_available)
-UNOP(fract, ir_unop_fract, always_available)
+UNOPA(abs, ir_unop_abs)
+UNOPA(sign, ir_unop_sign)
+UNOPA(floor, ir_unop_floor)
+UNOPA(trunc, ir_unop_trunc)
+UNOPA(round, ir_unop_round_even)
+UNOPA(roundEven, ir_unop_round_even)
+UNOPA(ceil, ir_unop_ceil)
+UNOPA(fract, ir_unop_fract)
ir_function_signature *
builtin_builder::_mod(const glsl_type *x_type, const glsl_type *y_type)
@@ -2876,11 +3056,11 @@ builtin_builder::_mod(const glsl_type *x_type, const glsl_type *y_type)
}
ir_function_signature *
-builtin_builder::_modf(const glsl_type *type)
+builtin_builder::_modf(builtin_available_predicate avail, const glsl_type *type)
{
ir_variable *x = in_var(type, "x");
ir_variable *i = out_var(type, "i");
- MAKE_SIG(type, v130, 2, x, i);
+ MAKE_SIG(type, avail, 2, x, i);
ir_variable *t = body.make_temp(type, "t");
body.emit(assign(t, expr(ir_unop_trunc, x)));
@@ -2919,12 +3099,12 @@ builtin_builder::_clamp(builtin_available_predicate avail,
}
ir_function_signature *
-builtin_builder::_mix_lrp(const glsl_type *val_type, const glsl_type *blend_type)
+builtin_builder::_mix_lrp(builtin_available_predicate avail, const glsl_type *val_type, const glsl_type *blend_type)
{
ir_variable *x = in_var(val_type, "x");
ir_variable *y = in_var(val_type, "y");
ir_variable *a = in_var(blend_type, "a");
- MAKE_SIG(val_type, always_available, 3, x, y, a);
+ MAKE_SIG(val_type, avail, 3, x, y, a);
body.emit(ret(lrp(x, y, a)));
@@ -2954,26 +3134,37 @@ builtin_builder::_mix_sel(builtin_available_predicate avail,
}
ir_function_signature *
-builtin_builder::_step(const glsl_type *edge_type, const glsl_type *x_type)
+builtin_builder::_step(builtin_available_predicate avail, const glsl_type *edge_type, const glsl_type *x_type)
{
ir_variable *edge = in_var(edge_type, "edge");
ir_variable *x = in_var(x_type, "x");
- MAKE_SIG(x_type, always_available, 2, edge, x);
+ MAKE_SIG(x_type, avail, 2, edge, x);
ir_variable *t = body.make_temp(x_type, "t");
if (x_type->vector_elements == 1) {
/* Both are floats */
- body.emit(assign(t, b2f(gequal(x, edge))));
+ if (edge_type->base_type == GLSL_TYPE_DOUBLE)
+ body.emit(assign(t, f2d(b2f(gequal(x, edge)))));
+ else
+ body.emit(assign(t, b2f(gequal(x, edge))));
} else if (edge_type->vector_elements == 1) {
/* x is a vector but edge is a float */
for (int i = 0; i < x_type->vector_elements; i++) {
- body.emit(assign(t, b2f(gequal(swizzle(x, i, 1), edge)), 1 << i));
+ if (edge_type->base_type == GLSL_TYPE_DOUBLE)
+ body.emit(assign(t, f2d(b2f(gequal(swizzle(x, i, 1), edge))), 1 << i));
+ else
+ body.emit(assign(t, b2f(gequal(swizzle(x, i, 1), edge)), 1 << i));
}
} else {
/* Both are vectors */
for (int i = 0; i < x_type->vector_elements; i++) {
- body.emit(assign(t, b2f(gequal(swizzle(x, i, 1), swizzle(edge, i, 1))),
- 1 << i));
+ if (edge_type->base_type == GLSL_TYPE_DOUBLE)
+ body.emit(assign(t, f2d(b2f(gequal(swizzle(x, i, 1), swizzle(edge, i, 1)))),
+ 1 << i));
+ else
+ body.emit(assign(t, b2f(gequal(swizzle(x, i, 1), swizzle(edge, i, 1))),
+ 1 << i));
+
}
}
body.emit(ret(t));
@@ -2982,12 +3173,12 @@ builtin_builder::_step(const glsl_type *edge_type, const glsl_type *x_type)
}
ir_function_signature *
-builtin_builder::_smoothstep(const glsl_type *edge_type, const glsl_type *x_type)
+builtin_builder::_smoothstep(builtin_available_predicate avail, const glsl_type *edge_type, const glsl_type *x_type)
{
ir_variable *edge0 = in_var(edge_type, "edge0");
ir_variable *edge1 = in_var(edge_type, "edge1");
ir_variable *x = in_var(x_type, "x");
- MAKE_SIG(x_type, always_available, 3, edge0, edge1, x);
+ MAKE_SIG(x_type, avail, 3, edge0, edge1, x);
/* From the GLSL 1.10 specification:
*
@@ -2998,18 +3189,18 @@ builtin_builder::_smoothstep(const glsl_type *edge_type, const glsl_type *x_type
ir_variable *t = body.make_temp(x_type, "t");
body.emit(assign(t, clamp(div(sub(x, edge0), sub(edge1, edge0)),
- imm(0.0f), imm(1.0f))));
+ IMM_FP(x_type, 0.0), IMM_FP(x_type, 1.0))));
- body.emit(ret(mul(t, mul(t, sub(imm(3.0f), mul(imm(2.0f), t))))));
+ body.emit(ret(mul(t, mul(t, sub(IMM_FP(x_type, 3.0), mul(IMM_FP(x_type, 2.0), t))))));
return sig;
}
ir_function_signature *
-builtin_builder::_isnan(const glsl_type *type)
+builtin_builder::_isnan(builtin_available_predicate avail, const glsl_type *type)
{
ir_variable *x = in_var(type, "x");
- MAKE_SIG(glsl_type::bvec(type->vector_elements), v130, 1, x);
+ MAKE_SIG(glsl_type::bvec(type->vector_elements), avail, 1, x);
body.emit(ret(nequal(x, x)));
@@ -3017,10 +3208,10 @@ builtin_builder::_isnan(const glsl_type *type)
}
ir_function_signature *
-builtin_builder::_isinf(const glsl_type *type)
+builtin_builder::_isinf(builtin_available_predicate avail, const glsl_type *type)
{
ir_variable *x = in_var(type, "x");
- MAKE_SIG(glsl_type::bvec(type->vector_elements), v130, 1, x);
+ MAKE_SIG(glsl_type::bvec(type->vector_elements), avail, 1, x);
ir_constant_data infinities;
for (int i = 0; i < type->vector_elements; i++) {
@@ -3160,10 +3351,28 @@ builtin_builder::_unpackHalf2x16(builtin_available_predicate avail)
}
ir_function_signature *
-builtin_builder::_length(const glsl_type *type)
+builtin_builder::_packDouble2x32(builtin_available_predicate avail)
+{
+ ir_variable *v = in_var(glsl_type::uvec2_type, "v");
+ MAKE_SIG(glsl_type::double_type, avail, 1, v);
+ body.emit(ret(expr(ir_unop_pack_double_2x32, v)));
+ return sig;
+}
+
+ir_function_signature *
+builtin_builder::_unpackDouble2x32(builtin_available_predicate avail)
+{
+ ir_variable *p = in_var(glsl_type::double_type, "p");
+ MAKE_SIG(glsl_type::uvec2_type, avail, 1, p);
+ body.emit(ret(expr(ir_unop_unpack_double_2x32, p)));
+ return sig;
+}
+
+ir_function_signature *
+builtin_builder::_length(builtin_available_predicate avail, const glsl_type *type)
{
ir_variable *x = in_var(type, "x");
- MAKE_SIG(glsl_type::float_type, always_available, 1, x);
+ MAKE_SIG(type->get_base_type(), avail, 1, x);
body.emit(ret(sqrt(dot(x, x))));
@@ -3171,11 +3380,11 @@ builtin_builder::_length(const glsl_type *type)
}
ir_function_signature *
-builtin_builder::_distance(const glsl_type *type)
+builtin_builder::_distance(builtin_available_predicate avail, const glsl_type *type)
{
ir_variable *p0 = in_var(type, "p0");
ir_variable *p1 = in_var(type, "p1");
- MAKE_SIG(glsl_type::float_type, always_available, 2, p0, p1);
+ MAKE_SIG(type->get_base_type(), avail, 2, p0, p1);
if (type->vector_elements == 1) {
body.emit(ret(abs(sub(p0, p1))));
@@ -3189,21 +3398,21 @@ builtin_builder::_distance(const glsl_type *type)
}
ir_function_signature *
-builtin_builder::_dot(const glsl_type *type)
+builtin_builder::_dot(builtin_available_predicate avail, const glsl_type *type)
{
if (type->vector_elements == 1)
- return binop(ir_binop_mul, always_available, type, type, type);
+ return binop(ir_binop_mul, avail, type, type, type);
- return binop(ir_binop_dot, always_available,
- glsl_type::float_type, type, type);
+ return binop(ir_binop_dot, avail,
+ type->get_base_type(), type, type);
}
ir_function_signature *
-builtin_builder::_cross(const glsl_type *type)
+builtin_builder::_cross(builtin_available_predicate avail, const glsl_type *type)
{
ir_variable *a = in_var(type, "a");
ir_variable *b = in_var(type, "b");
- MAKE_SIG(type, always_available, 2, a, b);
+ MAKE_SIG(type, avail, 2, a, b);
int yzx = MAKE_SWIZZLE4(SWIZZLE_Y, SWIZZLE_Z, SWIZZLE_X, 0);
int zxy = MAKE_SWIZZLE4(SWIZZLE_Z, SWIZZLE_X, SWIZZLE_Y, 0);
@@ -3215,10 +3424,10 @@ builtin_builder::_cross(const glsl_type *type)
}
ir_function_signature *
-builtin_builder::_normalize(const glsl_type *type)
+builtin_builder::_normalize(builtin_available_predicate avail, const glsl_type *type)
{
ir_variable *x = in_var(type, "x");
- MAKE_SIG(type, always_available, 1, x);
+ MAKE_SIG(type, avail, 1, x);
if (type->vector_elements == 1) {
body.emit(ret(sign(x)));
@@ -3248,41 +3457,41 @@ builtin_builder::_ftransform()
}
ir_function_signature *
-builtin_builder::_faceforward(const glsl_type *type)
+builtin_builder::_faceforward(builtin_available_predicate avail, const glsl_type *type)
{
ir_variable *N = in_var(type, "N");
ir_variable *I = in_var(type, "I");
ir_variable *Nref = in_var(type, "Nref");
- MAKE_SIG(type, always_available, 3, N, I, Nref);
+ MAKE_SIG(type, avail, 3, N, I, Nref);
- body.emit(if_tree(less(dot(Nref, I), imm(0.0f)),
+ body.emit(if_tree(less(dot(Nref, I), IMM_FP(type, 0.0)),
ret(N), ret(neg(N))));
return sig;
}
ir_function_signature *
-builtin_builder::_reflect(const glsl_type *type)
+builtin_builder::_reflect(builtin_available_predicate avail, const glsl_type *type)
{
ir_variable *I = in_var(type, "I");
ir_variable *N = in_var(type, "N");
- MAKE_SIG(type, always_available, 2, I, N);
+ MAKE_SIG(type, avail, 2, I, N);
/* I - 2 * dot(N, I) * N */
- body.emit(ret(sub(I, mul(imm(2.0f), mul(dot(N, I), N)))));
+ body.emit(ret(sub(I, mul(IMM_FP(type, 2.0), mul(dot(N, I), N)))));
return sig;
}
ir_function_signature *
-builtin_builder::_refract(const glsl_type *type)
+builtin_builder::_refract(builtin_available_predicate avail, const glsl_type *type)
{
ir_variable *I = in_var(type, "I");
ir_variable *N = in_var(type, "N");
- ir_variable *eta = in_var(glsl_type::float_type, "eta");
- MAKE_SIG(type, always_available, 3, I, N, eta);
+ ir_variable *eta = in_var(type->get_base_type(), "eta");
+ MAKE_SIG(type, avail, 3, I, N, eta);
- ir_variable *n_dot_i = body.make_temp(glsl_type::float_type, "n_dot_i");
+ ir_variable *n_dot_i = body.make_temp(type->get_base_type(), "n_dot_i");
body.emit(assign(n_dot_i, dot(N, I)));
/* From the GLSL 1.10 specification:
@@ -3292,11 +3501,11 @@ builtin_builder::_refract(const glsl_type *type)
* else
* return eta * I - (eta * dot(N, I) + sqrt(k)) * N
*/
- ir_variable *k = body.make_temp(glsl_type::float_type, "k");
- body.emit(assign(k, sub(imm(1.0f),
- mul(eta, mul(eta, sub(imm(1.0f),
+ ir_variable *k = body.make_temp(type->get_base_type(), "k");
+ body.emit(assign(k, sub(IMM_FP(type, 1.0),
+ mul(eta, mul(eta, sub(IMM_FP(type, 1.0),
mul(n_dot_i, n_dot_i)))))));
- body.emit(if_tree(less(k, imm(0.0f)),
+ body.emit(if_tree(less(k, IMM_FP(type, 0.0)),
ret(ir_constant::zero(mem_ctx, type)),
ret(sub(mul(eta, I),
mul(add(mul(eta, n_dot_i), sqrt(k)), N)))));
@@ -3305,11 +3514,11 @@ builtin_builder::_refract(const glsl_type *type)
}
ir_function_signature *
-builtin_builder::_matrixCompMult(const glsl_type *type)
+builtin_builder::_matrixCompMult(builtin_available_predicate avail, const glsl_type *type)
{
ir_variable *x = in_var(type, "x");
ir_variable *y = in_var(type, "y");
- MAKE_SIG(type, always_available, 2, x, y);
+ MAKE_SIG(type, avail, 2, x, y);
ir_variable *z = body.make_temp(type, "z");
for (int i = 0; i < type->matrix_columns; i++) {
@@ -3321,11 +3530,19 @@ builtin_builder::_matrixCompMult(const glsl_type *type)
}
ir_function_signature *
-builtin_builder::_outerProduct(const glsl_type *type)
+builtin_builder::_outerProduct(builtin_available_predicate avail, const glsl_type *type)
{
- ir_variable *c = in_var(glsl_type::vec(type->vector_elements), "c");
- ir_variable *r = in_var(glsl_type::vec(type->matrix_columns), "r");
- MAKE_SIG(type, v120, 2, c, r);
+ ir_variable *c;
+ ir_variable *r;
+
+ if (type->base_type == GLSL_TYPE_DOUBLE) {
+ r = in_var(glsl_type::dvec(type->matrix_columns), "r");
+ c = in_var(glsl_type::dvec(type->vector_elements), "c");
+ } else {
+ r = in_var(glsl_type::vec(type->matrix_columns), "r");
+ c = in_var(glsl_type::vec(type->vector_elements), "c");
+ }
+ MAKE_SIG(type, avail, 2, c, r);
ir_variable *m = body.make_temp(type, "m");
for (int i = 0; i < type->matrix_columns; i++) {
@@ -3337,15 +3554,15 @@ builtin_builder::_outerProduct(const glsl_type *type)
}
ir_function_signature *
-builtin_builder::_transpose(const glsl_type *orig_type)
+builtin_builder::_transpose(builtin_available_predicate avail, const glsl_type *orig_type)
{
const glsl_type *transpose_type =
- glsl_type::get_instance(GLSL_TYPE_FLOAT,
+ glsl_type::get_instance(orig_type->base_type,
orig_type->matrix_columns,
orig_type->vector_elements);
ir_variable *m = in_var(orig_type, "m");
- MAKE_SIG(transpose_type, v120, 1, m);
+ MAKE_SIG(transpose_type, avail, 1, m);
ir_variable *t = body.make_temp(transpose_type, "t");
for (int i = 0; i < orig_type->matrix_columns; i++) {
@@ -3361,10 +3578,10 @@ builtin_builder::_transpose(const glsl_type *orig_type)
}
ir_function_signature *
-builtin_builder::_determinant_mat2()
+builtin_builder::_determinant_mat2(builtin_available_predicate avail, const glsl_type *type)
{
- ir_variable *m = in_var(glsl_type::mat2_type, "m");
- MAKE_SIG(glsl_type::float_type, v120, 1, m);
+ ir_variable *m = in_var(type, "m");
+ MAKE_SIG(type->get_base_type(), avail, 1, m);
body.emit(ret(sub(mul(matrix_elt(m, 0, 0), matrix_elt(m, 1, 1)),
mul(matrix_elt(m, 1, 0), matrix_elt(m, 0, 1)))));
@@ -3373,10 +3590,10 @@ builtin_builder::_determinant_mat2()
}
ir_function_signature *
-builtin_builder::_determinant_mat3()
+builtin_builder::_determinant_mat3(builtin_available_predicate avail, const glsl_type *type)
{
- ir_variable *m = in_var(glsl_type::mat3_type, "m");
- MAKE_SIG(glsl_type::float_type, v120, 1, m);
+ ir_variable *m = in_var(type, "m");
+ MAKE_SIG(type->get_base_type(), avail, 1, m);
ir_expression *f1 =
sub(mul(matrix_elt(m, 1, 1), matrix_elt(m, 2, 2)),
@@ -3398,30 +3615,31 @@ builtin_builder::_determinant_mat3()
}
ir_function_signature *
-builtin_builder::_determinant_mat4()
-{
- ir_variable *m = in_var(glsl_type::mat4_type, "m");
- MAKE_SIG(glsl_type::float_type, v120, 1, m);
-
- ir_variable *SubFactor00 = body.make_temp(glsl_type::float_type, "SubFactor00");
- ir_variable *SubFactor01 = body.make_temp(glsl_type::float_type, "SubFactor01");
- ir_variable *SubFactor02 = body.make_temp(glsl_type::float_type, "SubFactor02");
- ir_variable *SubFactor03 = body.make_temp(glsl_type::float_type, "SubFactor03");
- ir_variable *SubFactor04 = body.make_temp(glsl_type::float_type, "SubFactor04");
- ir_variable *SubFactor05 = body.make_temp(glsl_type::float_type, "SubFactor05");
- ir_variable *SubFactor06 = body.make_temp(glsl_type::float_type, "SubFactor06");
- ir_variable *SubFactor07 = body.make_temp(glsl_type::float_type, "SubFactor07");
- ir_variable *SubFactor08 = body.make_temp(glsl_type::float_type, "SubFactor08");
- ir_variable *SubFactor09 = body.make_temp(glsl_type::float_type, "SubFactor09");
- ir_variable *SubFactor10 = body.make_temp(glsl_type::float_type, "SubFactor10");
- ir_variable *SubFactor11 = body.make_temp(glsl_type::float_type, "SubFactor11");
- ir_variable *SubFactor12 = body.make_temp(glsl_type::float_type, "SubFactor12");
- ir_variable *SubFactor13 = body.make_temp(glsl_type::float_type, "SubFactor13");
- ir_variable *SubFactor14 = body.make_temp(glsl_type::float_type, "SubFactor14");
- ir_variable *SubFactor15 = body.make_temp(glsl_type::float_type, "SubFactor15");
- ir_variable *SubFactor16 = body.make_temp(glsl_type::float_type, "SubFactor16");
- ir_variable *SubFactor17 = body.make_temp(glsl_type::float_type, "SubFactor17");
- ir_variable *SubFactor18 = body.make_temp(glsl_type::float_type, "SubFactor18");
+builtin_builder::_determinant_mat4(builtin_available_predicate avail, const glsl_type *type)
+{
+ ir_variable *m = in_var(type, "m");
+ const glsl_type *btype = type->get_base_type();
+ MAKE_SIG(btype, avail, 1, m);
+
+ ir_variable *SubFactor00 = body.make_temp(btype, "SubFactor00");
+ ir_variable *SubFactor01 = body.make_temp(btype, "SubFactor01");
+ ir_variable *SubFactor02 = body.make_temp(btype, "SubFactor02");
+ ir_variable *SubFactor03 = body.make_temp(btype, "SubFactor03");
+ ir_variable *SubFactor04 = body.make_temp(btype, "SubFactor04");
+ ir_variable *SubFactor05 = body.make_temp(btype, "SubFactor05");
+ ir_variable *SubFactor06 = body.make_temp(btype, "SubFactor06");
+ ir_variable *SubFactor07 = body.make_temp(btype, "SubFactor07");
+ ir_variable *SubFactor08 = body.make_temp(btype, "SubFactor08");
+ ir_variable *SubFactor09 = body.make_temp(btype, "SubFactor09");
+ ir_variable *SubFactor10 = body.make_temp(btype, "SubFactor10");
+ ir_variable *SubFactor11 = body.make_temp(btype, "SubFactor11");
+ ir_variable *SubFactor12 = body.make_temp(btype, "SubFactor12");
+ ir_variable *SubFactor13 = body.make_temp(btype, "SubFactor13");
+ ir_variable *SubFactor14 = body.make_temp(btype, "SubFactor14");
+ ir_variable *SubFactor15 = body.make_temp(btype, "SubFactor15");
+ ir_variable *SubFactor16 = body.make_temp(btype, "SubFactor16");
+ ir_variable *SubFactor17 = body.make_temp(btype, "SubFactor17");
+ ir_variable *SubFactor18 = body.make_temp(btype, "SubFactor18");
body.emit(assign(SubFactor00, sub(mul(matrix_elt(m, 2, 2), matrix_elt(m, 3, 3)), mul(matrix_elt(m, 3, 2), matrix_elt(m, 2, 3)))));
body.emit(assign(SubFactor01, sub(mul(matrix_elt(m, 2, 1), matrix_elt(m, 3, 3)), mul(matrix_elt(m, 3, 1), matrix_elt(m, 2, 3)))));
@@ -3443,7 +3661,7 @@ builtin_builder::_determinant_mat4()
body.emit(assign(SubFactor17, sub(mul(matrix_elt(m, 1, 0), matrix_elt(m, 2, 2)), mul(matrix_elt(m, 2, 0), matrix_elt(m, 1, 2)))));
body.emit(assign(SubFactor18, sub(mul(matrix_elt(m, 1, 0), matrix_elt(m, 2, 1)), mul(matrix_elt(m, 2, 0), matrix_elt(m, 1, 1)))));
- ir_variable *adj_0 = body.make_temp(glsl_type::vec4_type, "adj_0");
+ ir_variable *adj_0 = body.make_temp(btype == glsl_type::float_type ? glsl_type::vec4_type : glsl_type::dvec4_type, "adj_0");
body.emit(assign(adj_0,
add(sub(mul(matrix_elt(m, 1, 1), SubFactor00),
@@ -3472,12 +3690,12 @@ builtin_builder::_determinant_mat4()
}
ir_function_signature *
-builtin_builder::_inverse_mat2()
+builtin_builder::_inverse_mat2(builtin_available_predicate avail, const glsl_type *type)
{
- ir_variable *m = in_var(glsl_type::mat2_type, "m");
- MAKE_SIG(glsl_type::mat2_type, v120, 1, m);
+ ir_variable *m = in_var(type, "m");
+ MAKE_SIG(type, avail, 1, m);
- ir_variable *adj = body.make_temp(glsl_type::mat2_type, "adj");
+ ir_variable *adj = body.make_temp(type, "adj");
body.emit(assign(array_ref(adj, 0), matrix_elt(m, 1, 1), 1 << 0));
body.emit(assign(array_ref(adj, 0), neg(matrix_elt(m, 0, 1)), 1 << 1));
body.emit(assign(array_ref(adj, 1), neg(matrix_elt(m, 1, 0)), 1 << 0));
@@ -3492,14 +3710,15 @@ builtin_builder::_inverse_mat2()
}
ir_function_signature *
-builtin_builder::_inverse_mat3()
+builtin_builder::_inverse_mat3(builtin_available_predicate avail, const glsl_type *type)
{
- ir_variable *m = in_var(glsl_type::mat3_type, "m");
- MAKE_SIG(glsl_type::mat3_type, v120, 1, m);
+ ir_variable *m = in_var(type, "m");
+ const glsl_type *btype = type->get_base_type();
+ MAKE_SIG(type, avail, 1, m);
- ir_variable *f11_22_21_12 = body.make_temp(glsl_type::float_type, "f11_22_21_12");
- ir_variable *f10_22_20_12 = body.make_temp(glsl_type::float_type, "f10_22_20_12");
- ir_variable *f10_21_20_11 = body.make_temp(glsl_type::float_type, "f10_21_20_11");
+ ir_variable *f11_22_21_12 = body.make_temp(btype, "f11_22_21_12");
+ ir_variable *f10_22_20_12 = body.make_temp(btype, "f10_22_20_12");
+ ir_variable *f10_21_20_11 = body.make_temp(btype, "f10_21_20_11");
body.emit(assign(f11_22_21_12,
sub(mul(matrix_elt(m, 1, 1), matrix_elt(m, 2, 2)),
@@ -3511,7 +3730,7 @@ builtin_builder::_inverse_mat3()
sub(mul(matrix_elt(m, 1, 0), matrix_elt(m, 2, 1)),
mul(matrix_elt(m, 2, 0), matrix_elt(m, 1, 1)))));
- ir_variable *adj = body.make_temp(glsl_type::mat3_type, "adj");
+ ir_variable *adj = body.make_temp(type, "adj");
body.emit(assign(array_ref(adj, 0), f11_22_21_12, WRITEMASK_X));
body.emit(assign(array_ref(adj, 1), neg(f10_22_20_12), WRITEMASK_X));
body.emit(assign(array_ref(adj, 2), f10_21_20_11, WRITEMASK_X));
@@ -3553,30 +3772,31 @@ builtin_builder::_inverse_mat3()
}
ir_function_signature *
-builtin_builder::_inverse_mat4()
-{
- ir_variable *m = in_var(glsl_type::mat4_type, "m");
- MAKE_SIG(glsl_type::mat4_type, v120, 1, m);
-
- ir_variable *SubFactor00 = body.make_temp(glsl_type::float_type, "SubFactor00");
- ir_variable *SubFactor01 = body.make_temp(glsl_type::float_type, "SubFactor01");
- ir_variable *SubFactor02 = body.make_temp(glsl_type::float_type, "SubFactor02");
- ir_variable *SubFactor03 = body.make_temp(glsl_type::float_type, "SubFactor03");
- ir_variable *SubFactor04 = body.make_temp(glsl_type::float_type, "SubFactor04");
- ir_variable *SubFactor05 = body.make_temp(glsl_type::float_type, "SubFactor05");
- ir_variable *SubFactor06 = body.make_temp(glsl_type::float_type, "SubFactor06");
- ir_variable *SubFactor07 = body.make_temp(glsl_type::float_type, "SubFactor07");
- ir_variable *SubFactor08 = body.make_temp(glsl_type::float_type, "SubFactor08");
- ir_variable *SubFactor09 = body.make_temp(glsl_type::float_type, "SubFactor09");
- ir_variable *SubFactor10 = body.make_temp(glsl_type::float_type, "SubFactor10");
- ir_variable *SubFactor11 = body.make_temp(glsl_type::float_type, "SubFactor11");
- ir_variable *SubFactor12 = body.make_temp(glsl_type::float_type, "SubFactor12");
- ir_variable *SubFactor13 = body.make_temp(glsl_type::float_type, "SubFactor13");
- ir_variable *SubFactor14 = body.make_temp(glsl_type::float_type, "SubFactor14");
- ir_variable *SubFactor15 = body.make_temp(glsl_type::float_type, "SubFactor15");
- ir_variable *SubFactor16 = body.make_temp(glsl_type::float_type, "SubFactor16");
- ir_variable *SubFactor17 = body.make_temp(glsl_type::float_type, "SubFactor17");
- ir_variable *SubFactor18 = body.make_temp(glsl_type::float_type, "SubFactor18");
+builtin_builder::_inverse_mat4(builtin_available_predicate avail, const glsl_type *type)
+{
+ ir_variable *m = in_var(type, "m");
+ const glsl_type *btype = type->get_base_type();
+ MAKE_SIG(type, avail, 1, m);
+
+ ir_variable *SubFactor00 = body.make_temp(btype, "SubFactor00");
+ ir_variable *SubFactor01 = body.make_temp(btype, "SubFactor01");
+ ir_variable *SubFactor02 = body.make_temp(btype, "SubFactor02");
+ ir_variable *SubFactor03 = body.make_temp(btype, "SubFactor03");
+ ir_variable *SubFactor04 = body.make_temp(btype, "SubFactor04");
+ ir_variable *SubFactor05 = body.make_temp(btype, "SubFactor05");
+ ir_variable *SubFactor06 = body.make_temp(btype, "SubFactor06");
+ ir_variable *SubFactor07 = body.make_temp(btype, "SubFactor07");
+ ir_variable *SubFactor08 = body.make_temp(btype, "SubFactor08");
+ ir_variable *SubFactor09 = body.make_temp(btype, "SubFactor09");
+ ir_variable *SubFactor10 = body.make_temp(btype, "SubFactor10");
+ ir_variable *SubFactor11 = body.make_temp(btype, "SubFactor11");
+ ir_variable *SubFactor12 = body.make_temp(btype, "SubFactor12");
+ ir_variable *SubFactor13 = body.make_temp(btype, "SubFactor13");
+ ir_variable *SubFactor14 = body.make_temp(btype, "SubFactor14");
+ ir_variable *SubFactor15 = body.make_temp(btype, "SubFactor15");
+ ir_variable *SubFactor16 = body.make_temp(btype, "SubFactor16");
+ ir_variable *SubFactor17 = body.make_temp(btype, "SubFactor17");
+ ir_variable *SubFactor18 = body.make_temp(btype, "SubFactor18");
body.emit(assign(SubFactor00, sub(mul(matrix_elt(m, 2, 2), matrix_elt(m, 3, 3)), mul(matrix_elt(m, 3, 2), matrix_elt(m, 2, 3)))));
body.emit(assign(SubFactor01, sub(mul(matrix_elt(m, 2, 1), matrix_elt(m, 3, 3)), mul(matrix_elt(m, 3, 1), matrix_elt(m, 2, 3)))));
@@ -3598,7 +3818,7 @@ builtin_builder::_inverse_mat4()
body.emit(assign(SubFactor17, sub(mul(matrix_elt(m, 1, 0), matrix_elt(m, 2, 2)), mul(matrix_elt(m, 2, 0), matrix_elt(m, 1, 2)))));
body.emit(assign(SubFactor18, sub(mul(matrix_elt(m, 1, 0), matrix_elt(m, 2, 1)), mul(matrix_elt(m, 2, 0), matrix_elt(m, 1, 1)))));
- ir_variable *adj = body.make_temp(glsl_type::mat4_type, "adj");
+ ir_variable *adj = body.make_temp(btype == glsl_type::float_type ? glsl_type::mat4_type : glsl_type::dmat4_type, "adj");
body.emit(assign(array_ref(adj, 0),
add(sub(mul(matrix_elt(m, 1, 1), SubFactor00),
mul(matrix_elt(m, 1, 2), SubFactor01)),
@@ -4270,12 +4490,12 @@ builtin_builder::_findMSB(const glsl_type *type)
}
ir_function_signature *
-builtin_builder::_fma(const glsl_type *type)
+builtin_builder::_fma(builtin_available_predicate avail, const glsl_type *type)
{
ir_variable *a = in_var(type, "a");
ir_variable *b = in_var(type, "b");
ir_variable *c = in_var(type, "c");
- MAKE_SIG(type, gpu_shader5, 3, a, b, c);
+ MAKE_SIG(type, avail, 3, a, b, c);
body.emit(ret(ir_builder::fma(a, b, c)));
@@ -4285,7 +4505,20 @@ builtin_builder::_fma(const glsl_type *type)
ir_function_signature *
builtin_builder::_ldexp(const glsl_type *x_type, const glsl_type *exp_type)
{
- return binop(ir_binop_ldexp, gpu_shader5, x_type, x_type, exp_type);
+ return binop(ir_binop_ldexp, x_type->base_type == GLSL_TYPE_DOUBLE ? fp64 : gpu_shader5, x_type, x_type, exp_type);
+}
+
+ir_function_signature *
+builtin_builder::_dfrexp(const glsl_type *x_type, const glsl_type *exp_type)
+{
+ ir_variable *x = in_var(x_type, "x");
+ ir_variable *exponent = out_var(exp_type, "exp");
+ MAKE_SIG(x_type, fp64, 2, x, exponent);
+
+ body.emit(assign(exponent, expr(ir_unop_frexp_exp, x)));
+
+ body.emit(ret(expr(ir_unop_frexp_sig, x)));
+ return sig;
}
ir_function_signature *