sp1_core_machine/range/
trace.rs1use slop_algebra::PrimeField32;
2use sp1_core_executor::{events::ByteRecord, ByteOpcode, ExecutionRecord, Program};
3use sp1_hypercube::air::MachineAir;
4use std::mem::MaybeUninit;
5
6use crate::range::columns::RangePreprocessedCols;
7
8use super::{
9 columns::{NUM_RANGE_MULT_COLS, NUM_RANGE_PREPROCESSED_COLS},
10 RangeChip,
11};
12
13use struct_reflection::StructReflectionHelper;
14
15pub const NUM_ROWS: usize = 1 << 17;
16
17impl<F: PrimeField32> MachineAir<F> for RangeChip<F> {
18 type Record = ExecutionRecord;
19
20 type Program = Program;
21
22 fn name(&self) -> &'static str {
23 "Range"
24 }
25
26 fn num_rows(&self, _: &Self::Record) -> Option<usize> {
27 Some(NUM_ROWS)
28 }
29
30 fn preprocessed_width(&self) -> usize {
31 NUM_RANGE_PREPROCESSED_COLS
32 }
33
34 fn preprocessed_num_rows(&self, _program: &Self::Program) -> Option<usize> {
35 Some(NUM_ROWS)
36 }
37
38 fn preprocessed_num_rows_with_instrs_len(
39 &self,
40 _program: &Self::Program,
41 _instrs_len: usize,
42 ) -> Option<usize> {
43 Some(NUM_ROWS)
44 }
45
46 fn generate_preprocessed_trace_into(
47 &self,
48 _program: &Self::Program,
49 buffer: &mut [MaybeUninit<F>],
50 ) {
51 Self::trace(buffer);
52 }
53
54 fn generate_dependencies(&self, input: &ExecutionRecord, output: &mut ExecutionRecord) {
55 let initial_timestamp_0 = ((input.public_values.initial_timestamp >> 32) & 0xFFFF) as u16;
56 let initial_timestamp_3 = (input.public_values.initial_timestamp & 0xFFFF) as u16;
57 let last_timestamp_0 = ((input.public_values.last_timestamp >> 32) & 0xFFFF) as u16;
58 let last_timestamp_3 = (input.public_values.last_timestamp & 0xFFFF) as u16;
59
60 output.add_bit_range_check(initial_timestamp_0, 16);
61 output.add_bit_range_check((initial_timestamp_3 - 1) / 8, 13);
62 output.add_bit_range_check(last_timestamp_0, 16);
63 output.add_bit_range_check((last_timestamp_3 - 1) / 8, 13);
64
65 for addr in [
66 input.public_values.pc_start,
67 input.public_values.next_pc,
68 input.public_values.previous_init_addr,
69 input.public_values.last_init_addr,
70 input.public_values.previous_finalize_addr,
71 input.public_values.last_finalize_addr,
72 ] {
73 let limb_0 = (addr & 0xFFFF) as u16;
74 let limb_1 = ((addr >> 16) & 0xFFFF) as u16;
75 let limb_2 = ((addr >> 32) & 0xFFFF) as u16;
76 output.add_bit_range_check(limb_0, 16);
77 output.add_bit_range_check(limb_1, 16);
78 output.add_bit_range_check(limb_2, 16);
79 }
80
81 #[cfg(feature = "mprotect")]
82 for addr in [
83 input.public_values.trap_context[0],
84 input.public_values.trap_context[1],
85 input.public_values.trap_context[2],
86 input.public_values.untrusted_memory[0],
87 input.public_values.untrusted_memory[1],
88 ] {
89 let limb_0 = (addr & 0xFFFF) as u16;
90 let limb_1 = ((addr >> 16) & 0xFFFF) as u16;
91 let limb_2 = ((addr >> 32) & 0xFFFF) as u16;
92 output.add_bit_range_check(limb_0, 16);
93 output.add_bit_range_check(limb_1, 16);
94 output.add_bit_range_check(limb_2, 16);
95 }
96 }
97
98 fn generate_trace_into(
99 &self,
100 input: &ExecutionRecord,
101 _output: &mut ExecutionRecord,
102 buffer: &mut [MaybeUninit<F>],
103 ) {
104 let buffer_ptr = buffer.as_mut_ptr() as *mut F;
105 let values =
106 unsafe { core::slice::from_raw_parts_mut(buffer_ptr, NUM_RANGE_MULT_COLS * NUM_ROWS) };
107 unsafe {
108 core::ptr::write_bytes(values.as_mut_ptr(), 0, NUM_RANGE_MULT_COLS * NUM_ROWS);
109 }
110
111 for (lookup, mult) in input.byte_lookups.iter() {
112 if lookup.opcode != ByteOpcode::Range {
113 continue;
114 }
115 let row = (lookup.a as usize) + (1 << lookup.b);
116 values[row] = F::from_canonical_usize(*mult);
117 }
118 }
119
120 fn included(&self, _shard: &Self::Record) -> bool {
121 true
122 }
123
124 fn column_names(&self) -> Vec<String> {
125 RangePreprocessedCols::<F>::struct_reflection().unwrap()
126 }
127}