Files

aligned

lib.rssealed.rs

app

app_network.rsapp_sensor.rsdisplay.rslib.rstouch_sensor.rs

arrayvec

array.rsarray_string.rschar.rserrors.rslib.rsmaybe_uninit.rs

as_slice

lib.rs

bare_metal

lib.rs

byteorder

lib.rs

cfg_if

lib.rs

cortex_m

peripheral

cbp.rscpuid.rsdcb.rsdwt.rsfpb.rsitm.rsmod.rsmpu.rsnvic.rsscb.rssyst.rstpiu.rs

register

apsr.rsbasepri.rsbasepri_max.rscontrol.rsfaultmask.rslr.rsmod.rsmsp.rspc.rsprimask.rspsp.rs

asm.rsinterrupt.rsitm.rslib.rsmacros.rs

cortex_m_rt

lib.rs

cstr_core

lib.rs

cty

lib.rs

druid

widget

align.rsbutton.rsflex.rslabel.rsmod.rspadding.rswidgetbox.rs

app.rsargvalue.rsdata.rsenv.rsevent.rslib.rslocalization.rsmouse.rswin_handler.rswindow.rswindowbox.rs

druid_shell

platform

embedded

application.rserror.rsmod.rsrunloop.rsutil.rswindow.rs

mod.rs

application.rscommon_util.rserror.rslib.rsmouse.rsrunloop.rswindow.rs

embedded_graphics

fonts

font12x16.rsfont6x12.rsfont6x8.rsfont8x16.rsfont_builder.rsmod.rs

image

image.rsimage16bpp.rsimage1bpp.rsimage8bpp.rsmod.rs

pixelcolor

mod.rsrgb565.rs

primitives

circle.rsline.rsmod.rsrectangle.rstriangle.rs

coord.rsdrawable.rslib.rsmock_display.rsprelude.rsstyle.rstransform.rsunsignedcoord.rs

embedded_hal

blocking

delay.rsi2c.rsmod.rsrng.rsserial.rsspi.rs

digital

mod.rsv1.rsv1_compat.rsv2.rsv2_compat.rs

adc.rsfmt.rslib.rsprelude.rsserial.rsspi.rstimer.rswatchdog.rs

generic_array

arr.rsfunctional.rshex.rsimpls.rsiter.rslib.rssequence.rs

hash32

fnv.rslib.rsmurmur3.rs

heapless

pool

mod.rssingleton.rs

spsc

mod.rssplit.rs

binary_heap.rscfail.rsi.rsindexmap.rsindexset.rslib.rslinear_map.rsmpmc.rssealed.rsstring.rsvec.rs

introsort

lib.rssort.rs

kurbo

affine.rsarc.rsbezpath.rscircle.rscommon.rscubicbez.rsinsets.rslib.rsline.rsparam_curve.rspoint.rsquadbez.rsrect.rsrounded_rect.rsshape.rssize.rstranslate_scale.rsvec2.rs

libchip8

lib.rs

libm

math

acos.rsacosf.rsacosh.rsacoshf.rsasin.rsasinf.rsasinh.rsasinhf.rsatan.rsatan2.rsatan2f.rsatanf.rsatanh.rsatanhf.rscbrt.rscbrtf.rsceil.rsceilf.rscopysign.rscopysignf.rscos.rscosf.rscosh.rscoshf.rserf.rserff.rsexp.rsexp10.rsexp10f.rsexp2.rsexp2f.rsexpf.rsexpm1.rsexpm1f.rsexpo2.rsfabs.rsfabsf.rsfdim.rsfdimf.rsfenv.rsfloor.rsfloorf.rsfma.rsfmaf.rsfmax.rsfmaxf.rsfmin.rsfminf.rsfmod.rsfmodf.rsfrexp.rsfrexpf.rshypot.rshypotf.rsilogb.rsilogbf.rsj0.rsj0f.rsj1.rsj1f.rsjn.rsjnf.rsk_cos.rsk_cosf.rsk_expo2.rsk_expo2f.rsk_sin.rsk_sinf.rsk_tan.rsk_tanf.rsldexp.rsldexpf.rslgamma.rslgamma_r.rslgammaf.rslgammaf_r.rslog.rslog10.rslog10f.rslog1p.rslog1pf.rslog2.rslog2f.rslogf.rsmod.rsmodf.rsmodff.rsnextafter.rsnextafterf.rspow.rspowf.rsrem_pio2.rsrem_pio2_large.rsrem_pio2f.rsremainder.rsremainderf.rsremquo.rsremquof.rsround.rsroundf.rsscalbn.rsscalbnf.rssin.rssincos.rssincosf.rssinf.rssinh.rssinhf.rssqrt.rssqrtf.rstan.rstanf.rstanh.rstanhf.rstgamma.rstgammaf.rstrunc.rstruncf.rs

lib.rs

log

lib.rsmacros.rs

memchr

fallback.rsiter.rslib.rsnaive.rs

mynewt

encoding

coap_context.rsjson.rsmacros.rstinycbor.rs

hw

sensor

bindings.rs

hal.rssensor.rssensor_mgr.rs

kernel

os.rs

libs

mynewt_rust.rssensor_coap.rssensor_network.rs

sys

console.rs

util

macros.rs

encoding.rshal.rshw.rskernel.rslib.rslibs.rsspi.rssys.rsutil.rs

nb

lib.rs

num_traits

ops

checked.rsinv.rsmod.rsmul_add.rssaturating.rswrapping.rs

bounds.rscast.rsfloat.rsidentities.rsint.rslib.rsmacros.rspow.rssign.rs

piet

color.rsconv.rserror.rsgradient.rslib.rsnull_renderer.rsrender_context.rsshapes.rstext.rs

piet_common

embedded_graphics_back.rslib.rs

piet_embedded_graphics

batch.rsbrush.rscontext.rsdisplay.rsimage.rslib.rsstatus.rstext.rs

r0

lib.rs

st7735_lcd

instruction.rslib.rs

stable_deref_trait

lib.rs

typenum

array.rsbit.rsint.rslib.rsmarker_traits.rsoperator_aliases.rsprivate.rstype_operators.rsuint.rs

unicode_segmentation

grapheme.rslib.rssentence.rstables.rsword.rs

vcell

lib.rs

void

lib.rs

volatile_register

lib.rs

>

use core::{mem, slice};

use byteorder::{ByteOrder, LE};

/// 32-bit MurmurHash3 hasher
pub struct Hasher {
    buf: Buffer,
    index: Index,
    processed: u32,
    state: State,
}

struct State(u32);

#[derive(Clone, Copy)]
#[repr(align(4))]
struct Buffer {
    bytes: [u8; 4],
}

#[derive(Clone, Copy, PartialEq)]
enum Index {
    _0,
    _1,
    _2,
    _3,
}

impl Index {
    fn usize(&self) -> usize {
        match *self {
            Index::_0 => 0,
            Index::_1 => 1,
            Index::_2 => 2,
            Index::_3 => 3,
        }
    }
}

impl From<usize> for Index {
    fn from(x: usize) -> Self {
        match x % 4 {
            0 => Index::_0,
            1 => Index::_1,
            2 => Index::_2,
            3 => Index::_3,
            _ => unreachable!(),
        }
    }
}

impl Hasher {
    fn push(&mut self, buf: &[u8]) {
        let start = self.index.usize();
        let len = buf.len();
        // NOTE(unsafe) avoid calling `memcpy` on a 0-3 byte copy
        // self.buf.bytes[start..start+len].copy_from(buf);
        for i in 0..len {
            unsafe {
                *self.buf.bytes.get_unchecked_mut(start + i) = *buf.get_unchecked(i);
            }
        }
        self.index = Index::from(start + len);
    }
}

impl Default for Hasher {
    #[allow(deprecated)]
    fn default() -> Self {
        Hasher {
            buf: unsafe { mem::uninitialized() },
            index: Index::_0,
            processed: 0,
            state: State(0),
        }
    }
}

impl ::Hasher for Hasher {
    fn finish(&self) -> u32 {
        // tail
        let mut state = match self.index {
            Index::_3 => {
                let mut block = 0;
                block ^= u32::from(self.buf.bytes[2]) << 16;
                block ^= u32::from(self.buf.bytes[1]) << 8;
                block ^= u32::from(self.buf.bytes[0]);
                self.state.0 ^ pre_mix(block)
            }
            Index::_2 => {
                let mut block = 0;
                block ^= u32::from(self.buf.bytes[1]) << 8;
                block ^= u32::from(self.buf.bytes[0]);
                self.state.0 ^ pre_mix(block)
            }
            Index::_1 => {
                let mut block = 0;
                block ^= u32::from(self.buf.bytes[0]);
                self.state.0 ^ pre_mix(block)
            }
            Index::_0 => self.state.0,
        };

        // finalization mix
        state ^= self.processed;
        state ^= state >> 16;
        state = state.wrapping_mul(0x85ebca6b);
        state ^= state >> 13;
        state = state.wrapping_mul(0xc2b2ae35);
        state ^= state >> 16;

        state
    }

    #[inline]
    fn write(&mut self, bytes: &[u8]) {
        let len = bytes.len();
        self.processed += len as u32;

        let body = if self.index == Index::_0 {
            bytes
        } else {
            let index = self.index.usize();
            if len + index >= 4 {
                // we can complete a block using the data left in the buffer
                // NOTE(unsafe) avoid panicking branch (`slice_index_len_fail`)
                // let (head, body) = bytes.split_at(4 - index);
                let mid = 4 - index;
                let head = unsafe { slice::from_raw_parts(bytes.as_ptr(), mid) };
                let body = unsafe {
                    slice::from_raw_parts(bytes.as_ptr().offset(mid as isize), len - mid)
                };

                // NOTE(unsafe) avoid calling `memcpy` on a 0-3 byte copy
                // self.buf.bytes[index..].copy_from_slice(head);
                for i in 0..4 - index {
                    unsafe {
                        *self.buf.bytes.get_unchecked_mut(index + i) = *head.get_unchecked(i);
                    }
                }

                self.index = Index::_0;

                self.state.process_block(&self.buf.bytes);

                body
            } else {
                bytes
            }
        };

        for block in body.chunks(4) {
            if block.len() == 4 {
                self.state
                    .process_block(unsafe { &*(block.as_ptr() as *const _) });
            } else {
                self.push(block);
            }
        }

        // XXX is this faster?
        // for block in body.exact_chunks(4) {
        //     self.state
        //         .process_block(unsafe { &*(block.as_ptr() as *const _) });
        // }

        // let tail = body.split_at(body.len() / 4 * 4).1;

        // self.push(tail);
    }
}

const C1: u32 = 0xcc9e2d51;
const C2: u32 = 0x1b873593;
const R1: u32 = 15;

impl State {
    fn process_block(&mut self, block: &[u8; 4]) {
        self.0 ^= pre_mix(LE::read_u32(block));
        self.0 = self.0.rotate_left(13);
        self.0 = 5u32.wrapping_mul(self.0).wrapping_add(0xe6546b64);
    }
}

fn pre_mix(mut block: u32) -> u32 {
    block = block.wrapping_mul(C1);
    block = block.rotate_left(R1);
    block = block.wrapping_mul(C2);
    block
}