/* * Copyright © 2012 Intel Corporation * * 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 (including the next * paragraph) 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 * THE AUTHORS OR COPYRIGHT HOLDERS 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. */ #include "ir.h" namespace ir_builder { #ifndef WRITEMASK_X enum writemask { WRITEMASK_X = 0x1, WRITEMASK_Y = 0x2, WRITEMASK_Z = 0x4, WRITEMASK_W = 0x8, }; #endif /** * This little class exists to let the helper expression generators * take either an ir_rvalue * or an ir_variable * to be automatically * dereferenced, while still providing compile-time type checking. * * You don't have to explicitly call the constructor -- C++ will see * that you passed an ir_variable, and silently call the * operand(ir_variable *var) constructor behind your back. */ class operand { public: operand(ir_rvalue *val) : val(val) { } operand(ir_variable *var) { void *mem_ctx = ralloc_parent(var); val = new(mem_ctx) ir_dereference_variable(var); } ir_rvalue *val; }; /** Automatic generator for ir_dereference_variable on assignment LHS. * * \sa operand */ class deref { public: deref(ir_dereference *val) : val(val) { } deref(ir_variable *var) { void *mem_ctx = ralloc_parent(var); val = new(mem_ctx) ir_dereference_variable(var); } ir_dereference *val; }; class ir_factory { public: ir_factory(exec_list *instructions = NULL, void *mem_ctx = NULL) : instructions(instructions), mem_ctx(mem_ctx) { return; } void emit(ir_instruction *ir); ir_variable *make_temp(const glsl_type *type, const char *name); ir_constant* constant(float f) { return new(mem_ctx) ir_constant(f); } ir_constant* constant(int i) { return new(mem_ctx) ir_constant(i); } ir_constant* constant(unsigned u) { return new(mem_ctx) ir_constant(u); } ir_constant* constant(bool b) { return new(mem_ctx) ir_constant(b); } exec_list *instructions; void *mem_ctx; }; ir_assignment *assign(deref lhs, operand rhs); ir_assignment *assign(deref lhs, operand rhs, int writemask); ir_assignment *assign(deref lhs, operand rhs, operand condition); ir_assignment *assign(deref lhs, operand rhs, operand condition, int writemask); ir_return *ret(operand retval); ir_expression *expr(ir_expression_operation op, operand a); ir_expression *expr(ir_expression_operation op, operand a, operand b); ir_expression *expr(ir_expression_operation op, operand a, operand b, operand c); ir_expression *add(operand a, operand b); ir_expression *sub(operand a, operand b); ir_expression *mul(operand a, operand b); ir_expression *imul_high(operand a, operand b); ir_expression *div(operand a, operand b); ir_expression *carry(operand a, operand b); ir_expression *borrow(operand a, operand b); ir_expression *round_even(operand a); ir_expression *dot(operand a, operand b); ir_expression *dotlike(operand a, operand b); ir_expression *clamp(operand a, operand b, operand c); ir_expression *saturate(operand a); ir_expression *abs(operand a); ir_expression *neg(operand a); ir_expression *sin(operand a); ir_expression *cos(operand a); ir_expression *exp(operand a); ir_expression *rsq(operand a); ir_expression *sqrt(operand a); ir_expression *log(operand a); ir_expression *sign(operand a); ir_expression *equal(operand a, operand b); ir_expression *nequal(operand a, operand b); ir_expression *less(operand a, operand b); ir_expression *greater(operand a, operand b); ir_expression *lequal(operand a, operand b); ir_expression *gequal(operand a, operand b); ir_expression *logic_not(operand a); ir_expression *logic_and(operand a, operand b); ir_expression *logic_or(operand a, operand b); ir_expression *bit_not(operand a); ir_expression *bit_or(operand a, operand b); ir_expression *bit_and(operand a, operand b); ir_expression *lshift(operand a, operand b); ir_expression *rshift(operand a, operand b); ir_expression *f2i(operand a); ir_expression *bitcast_f2i(operand a); ir_expression *i2f(operand a); ir_expression *bitcast_i2f(operand a); ir_expression *f2u(operand a); ir_expression *bitcast_f2u(operand a); ir_expression *u2f(operand a); ir_expression *bitcast_u2f(operand a); ir_expression *i2u(operand a); ir_expression *u2i(operand a); ir_expression *b2i(operand a); ir_expression *i2b(operand a); ir_expression *f2b(operand a); ir_expression *b2f(operand a); ir_expression *min(operand a, operand b); ir_expression *max(operand a, operand b); ir_expression *fma(operand a, operand b, operand c); ir_expression *lrp(operand x, operand y, operand a); ir_expression *csel(operand a, operand b, operand c); ir_expression *bitfield_insert(operand a, operand b, operand c, operand d); ir_swizzle *swizzle(operand a, int swizzle, int components); /** * Swizzle away later components, but preserve the ordering. */ ir_swizzle *swizzle_for_size(operand a, unsigned components); ir_swizzle *swizzle_xxxx(operand a); ir_swizzle *swizzle_yyyy(operand a); ir_swizzle *swizzle_zzzz(operand a); ir_swizzle *swizzle_wwww(operand a); ir_swizzle *swizzle_x(operand a); ir_swizzle *swizzle_y(operand a); ir_swizzle *swizzle_z(operand a); ir_swizzle *swizzle_w(operand a); ir_swizzle *swizzle_xy(operand a); ir_swizzle *swizzle_xyz(operand a); ir_swizzle *swizzle_xyzw(operand a); ir_if *if_tree(operand condition, ir_instruction *then_branch); ir_if *if_tree(operand condition, ir_instruction *then_branch, ir_instruction *else_branch); } /* namespace ir_builder */