X-Git-Url: https://git.libre-soc.org/?a=blobdiff_plain;f=src%2Fglsl%2Fir_builder.cpp;h=f03941443e09822eccc1b55c6db531880cbef769;hb=0779f37e1589b0ba4f1443a889f34dd83607c117;hp=b2b926b610f8716fc34fb54ffd13b925e64e1a86;hpb=f72a8498e7e2c2d3233cdfd58de3b1124a247d39;p=mesa.git diff --git a/src/glsl/ir_builder.cpp b/src/glsl/ir_builder.cpp index b2b926b610f..f03941443e0 100644 --- a/src/glsl/ir_builder.cpp +++ b/src/glsl/ir_builder.cpp @@ -76,6 +76,13 @@ assign(deref lhs, operand rhs, operand condition) return assign(lhs, rhs, condition, (1 << lhs.val->type->vector_elements) - 1); } +ir_return * +ret(operand retval) +{ + void *mem_ctx = ralloc_parent(retval.val); + return new(mem_ctx) ir_return(retval.val); +} + ir_swizzle * swizzle(operand a, int swizzle, int components) { @@ -204,23 +211,54 @@ ir_expression *sub(operand a, operand b) return expr(ir_binop_sub, a, b); } +ir_expression *min2(operand a, operand b) +{ + return expr(ir_binop_min, a, b); +} + +ir_expression *max2(operand a, operand b) +{ + return expr(ir_binop_max, a, b); +} + ir_expression *mul(operand a, operand b) { return expr(ir_binop_mul, a, b); } +ir_expression *imul_high(operand a, operand b) +{ + return expr(ir_binop_imul_high, a, b); +} + ir_expression *div(operand a, operand b) { return expr(ir_binop_div, a, b); } +ir_expression *carry(operand a, operand b) +{ + return expr(ir_binop_carry, a, b); +} + +ir_expression *borrow(operand a, operand b) +{ + return expr(ir_binop_borrow, a, b); +} + ir_expression *round_even(operand a) { return expr(ir_unop_round_even, a); } +/* dot for vectors, mul for scalars */ ir_expression *dot(operand a, operand b) { + assert(a.val->type == b.val->type); + + if (a.val->type->vector_elements == 1) + return expr(ir_binop_mul, a, b); + return expr(ir_binop_dot, a, b); } @@ -246,6 +284,54 @@ abs(operand a) return expr(ir_unop_abs, a); } +ir_expression * +neg(operand a) +{ + return expr(ir_unop_neg, a); +} + +ir_expression * +sin(operand a) +{ + return expr(ir_unop_sin, a); +} + +ir_expression * +cos(operand a) +{ + return expr(ir_unop_cos, a); +} + +ir_expression * +exp(operand a) +{ + return expr(ir_unop_exp, a); +} + +ir_expression * +rsq(operand a) +{ + return expr(ir_unop_rsq, a); +} + +ir_expression * +sqrt(operand a) +{ + return expr(ir_unop_sqrt, a); +} + +ir_expression * +log(operand a) +{ + return expr(ir_unop_log, a); +} + +ir_expression * +sign(operand a) +{ + return expr(ir_unop_sign, a); +} + ir_expression* equal(operand a, operand b) { @@ -402,6 +488,62 @@ b2i(operand a) return expr(ir_unop_b2i, a); } +ir_expression * +f2b(operand a) +{ + return expr(ir_unop_f2b, a); +} + +ir_expression * +b2f(operand a) +{ + return expr(ir_unop_b2f, a); +} + +ir_expression * +interpolate_at_centroid(operand a) +{ + return expr(ir_unop_interpolate_at_centroid, a); +} + +ir_expression * +interpolate_at_offset(operand a, operand b) +{ + return expr(ir_binop_interpolate_at_offset, a, b); +} + +ir_expression * +interpolate_at_sample(operand a, operand b) +{ + return expr(ir_binop_interpolate_at_sample, a, b); +} + +ir_expression * +fma(operand a, operand b, operand c) +{ + return expr(ir_triop_fma, a, b, c); +} + +ir_expression * +lrp(operand x, operand y, operand a) +{ + return expr(ir_triop_lrp, x, y, a); +} + +ir_expression * +csel(operand a, operand b, operand c) +{ + return expr(ir_triop_csel, a, b, c); +} + +ir_expression * +bitfield_insert(operand a, operand b, operand c, operand d) +{ + void *mem_ctx = ralloc_parent(a.val); + return new(mem_ctx) ir_expression(ir_quadop_bitfield_insert, + a.val->type, a.val, b.val, c.val, d.val); +} + ir_if* if_tree(operand condition, ir_instruction *then_branch)