mirror of
https://github.com/pezkuwichain/revive.git
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xermicus
a07968205b
- Add the revive runtime function interface to minimize boiler plate code. - Outline heavily repeated code into dedicated functions to bring down code size. - The code size tests builds optimized for size. - Function attributes are passed as slices. This significantly brings down the code size for all OpenZeppelin wizard contracts (using all possible features) compiled against OpenZeppelin `v5.0.0` with size optimizations. |contract|| `-Oz` main | `-Oz` PR || `-O3` main | `-O3` PR | |-|-|-|-|-|-|-| |erc1155.sol||100K|67K||114K|147K| |erc20.sol||120K|90K||160K|191K| |erc721.sol||128K|101K||178K|214K| |governor.sol||226K|165K||293K|349K| |rwa.sol||116K|85K||154K|185K| |stable.sol||116K|86K||155K|192K| On the flip side this introduces a heavy penalty for cycle optimized builds. Setting the no-inline attributes for cycle optimized builds helps a lot but heavily penalizes runtime speed (LLVM does not yet inline everything properly - to be investigated later on). Next steps: - Modularize more functions - Refactor the YUL function arguments to use pointers instead of values - Afterwards check if LLVM still has trouble inline-ing properly on O3 or set the no-inline attribute if it does not penalize runtime performance too bad.
270 lines
8.4 KiB
Rust
270 lines
8.4 KiB
Rust
//! Translates the arithmetic operations.
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use inkwell::values::BasicValue;
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use crate::polkavm::context::runtime::RuntimeFunction;
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use crate::polkavm::context::Context;
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use crate::polkavm::Dependency;
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use crate::polkavm::WriteLLVM;
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/// Implements the division operator according to the EVM specification.
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pub struct Division;
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impl<D> RuntimeFunction<D> for Division
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where
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D: Dependency + Clone,
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{
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const NAME: &'static str = "__revive_division";
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fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
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context.word_type().fn_type(
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&[context.word_type().into(), context.word_type().into()],
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false,
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)
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}
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fn emit_body<'ctx>(
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&self,
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context: &mut Context<'ctx, D>,
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) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
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let operand_1 = Self::paramater(context, 0).into_int_value();
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let operand_2 = Self::paramater(context, 1).into_int_value();
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wrapped_division(context, operand_2, || {
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Ok(context
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.builder()
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.build_int_unsigned_div(operand_1, operand_2, "DIV")?)
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})
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.map(Into::into)
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}
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}
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impl<D> WriteLLVM<D> for Division
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where
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D: Dependency + Clone,
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{
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fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
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<Self as RuntimeFunction<_>>::declare(self, context)
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}
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fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
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<Self as RuntimeFunction<_>>::emit(&self, context)
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}
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}
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/// Implements the signed division operator according to the EVM specification.
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pub struct SignedDivision;
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impl<D> RuntimeFunction<D> for SignedDivision
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where
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D: Dependency + Clone,
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{
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const NAME: &'static str = "__revive_signed_division";
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fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
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context.word_type().fn_type(
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&[context.word_type().into(), context.word_type().into()],
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false,
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)
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}
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fn emit_body<'ctx>(
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&self,
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context: &mut Context<'ctx, D>,
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) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
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let operand_1 = Self::paramater(context, 0).into_int_value();
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let operand_2 = Self::paramater(context, 1).into_int_value();
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let block_calculate = context.append_basic_block("calculate");
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let block_overflow = context.append_basic_block("overflow");
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let block_select = context.append_basic_block("select_result");
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let block_origin = context.basic_block();
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context.builder().build_switch(
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operand_2,
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block_calculate,
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&[
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(context.word_type().const_zero(), block_select),
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(context.word_type().const_all_ones(), block_overflow),
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],
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)?;
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context.set_basic_block(block_calculate);
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let quotient = context
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.builder()
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.build_int_signed_div(operand_1, operand_2, "SDIV")?;
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context.build_unconditional_branch(block_select);
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context.set_basic_block(block_overflow);
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let max_uint = context.builder().build_int_z_extend(
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context
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.integer_type(revive_common::BIT_LENGTH_WORD - 1)
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.const_all_ones(),
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context.word_type(),
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"max_uint",
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)?;
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let is_operand_1_overflow = context.builder().build_int_compare(
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inkwell::IntPredicate::EQ,
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operand_1,
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context.builder().build_int_neg(max_uint, "min_uint")?,
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"is_operand_1_overflow",
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)?;
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context.build_conditional_branch(is_operand_1_overflow, block_select, block_calculate)?;
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context.set_basic_block(block_select);
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let result = context.builder().build_phi(context.word_type(), "result")?;
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result.add_incoming(&[
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(&operand_1, block_overflow),
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(&context.word_const(0), block_origin),
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("ient.as_basic_value_enum(), block_calculate),
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]);
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Ok(Some(result.as_basic_value()))
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}
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}
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impl<D> WriteLLVM<D> for SignedDivision
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where
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D: Dependency + Clone,
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{
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fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
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<Self as RuntimeFunction<_>>::declare(self, context)
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}
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fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
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<Self as RuntimeFunction<_>>::emit(&self, context)
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}
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}
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/// Implements the remainder operator according to the EVM specification.
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pub struct Remainder;
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impl<D> RuntimeFunction<D> for Remainder
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where
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D: Dependency + Clone,
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{
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const NAME: &'static str = "__revive_remainder";
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fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
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context.word_type().fn_type(
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&[context.word_type().into(), context.word_type().into()],
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false,
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)
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}
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fn emit_body<'ctx>(
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&self,
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context: &mut Context<'ctx, D>,
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) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
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let operand_1 = Self::paramater(context, 0).into_int_value();
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let operand_2 = Self::paramater(context, 1).into_int_value();
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wrapped_division(context, operand_2, || {
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Ok(context
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.builder()
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.build_int_unsigned_rem(operand_1, operand_2, "MOD")?)
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})
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.map(Into::into)
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}
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}
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impl<D> WriteLLVM<D> for Remainder
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where
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D: Dependency + Clone,
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{
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fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
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<Self as RuntimeFunction<_>>::declare(self, context)
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}
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fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
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<Self as RuntimeFunction<_>>::emit(&self, context)
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}
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}
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/// Implements the signed remainder operator according to the EVM specification.
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pub struct SignedRemainder;
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impl<D> RuntimeFunction<D> for SignedRemainder
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where
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D: Dependency + Clone,
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{
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const NAME: &'static str = "__revive_signed_remainder";
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fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
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context.word_type().fn_type(
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&[context.word_type().into(), context.word_type().into()],
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false,
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)
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}
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fn emit_body<'ctx>(
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&self,
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context: &mut Context<'ctx, D>,
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) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
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let operand_1 = Self::paramater(context, 0).into_int_value();
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let operand_2 = Self::paramater(context, 1).into_int_value();
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wrapped_division(context, operand_2, || {
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Ok(context
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.builder()
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.build_int_signed_rem(operand_1, operand_2, "SMOD")?)
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})
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.map(Into::into)
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}
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}
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impl<D> WriteLLVM<D> for SignedRemainder
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where
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D: Dependency + Clone,
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{
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fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
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<Self as RuntimeFunction<_>>::declare(self, context)
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}
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fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
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<Self as RuntimeFunction<_>>::emit(&self, context)
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}
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}
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/// Wrap division operations so that zero will be returned if the
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/// denominator is zero (see also Ethereum YP Appendix H.2).
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///
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/// The closure is expected to calculate and return the quotient.
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///
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/// The result is either the calculated quotient or zero,
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/// selected at runtime.
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fn wrapped_division<'ctx, D, F, T>(
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context: &Context<'ctx, D>,
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denominator: inkwell::values::IntValue<'ctx>,
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f: F,
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) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
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where
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D: Dependency + Clone,
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F: FnOnce() -> anyhow::Result<T>,
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T: inkwell::values::IntMathValue<'ctx>,
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{
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assert_eq!(
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denominator.get_type().get_bit_width(),
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revive_common::BIT_LENGTH_WORD as u32
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);
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let block_calculate = context.append_basic_block("calculate");
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let block_select = context.append_basic_block("select");
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let block_origin = context.basic_block();
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context.builder().build_switch(
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denominator,
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block_calculate,
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&[(context.word_const(0), block_select)],
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)?;
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context.set_basic_block(block_calculate);
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let calculated_value = f()?.as_basic_value_enum();
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context.build_unconditional_branch(block_select);
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context.set_basic_block(block_select);
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let result = context.builder().build_phi(context.word_type(), "result")?;
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result.add_incoming(&[
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(&context.word_const(0), block_origin),
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(&calculated_value, block_calculate),
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]);
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Ok(result.as_basic_value())
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}
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