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func.go
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func.go
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// Copyright (c) 2018 David Crawshaw <[email protected]>
// Copyright (c) 2021 Roxy Light <[email protected]>
//
// Permission to use, copy, modify, and distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice appear in all copies.
//
// THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
// WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
// ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
// WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
// ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
// OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
//
// SPDX-License-Identifier: ISC
package sqlite
import (
"errors"
"fmt"
"math"
"math/bits"
"strconv"
"strings"
"sync"
"unsafe"
"modernc.org/libc"
"modernc.org/libc/sys/types"
lib "modernc.org/sqlite/lib"
)
var auxdata struct {
mu sync.RWMutex
m map[uintptr]any
ids idGen
}
// Context is a SQL function execution context.
// It is in no way related to a Go context.Context.
// https://sqlite.org/c3ref/context.html
type Context struct {
tls *libc.TLS
ptr uintptr
}
// Conn returns the database connection that is calling the SQL function.
func (ctx Context) Conn() *Conn {
connPtr := lib.Xsqlite3_context_db_handle(ctx.tls, ctx.ptr)
allConns.mu.RLock()
defer allConns.mu.RUnlock()
return allConns.table[connPtr]
}
// AuxData returns the auxiliary data associated with the given argument, with
// zero being the leftmost argument, or nil if no such data is present.
//
// Auxiliary data may be used by (non-aggregate) SQL functions to associate
// metadata with argument values. If the same value is passed to multiple
// invocations of the same SQL function during query execution, under some
// circumstances the associated metadata may be preserved. An example of where
// this might be useful is in a regular-expression matching function. The
// compiled version of the regular expression can be stored as metadata
// associated with the pattern string. Then as long as the pattern string
// remains the same, the compiled regular expression can be reused on multiple
// invocations of the same function.
//
// For more details, see https://www.sqlite.org/c3ref/get_auxdata.html
func (ctx Context) AuxData(arg int) any {
id := lib.Xsqlite3_get_auxdata(ctx.tls, ctx.ptr, int32(arg))
if id == 0 {
return nil
}
auxdata.mu.RLock()
defer auxdata.mu.RUnlock()
return auxdata.m[id]
}
// SetAuxData sets the auxiliary data associated with the given argument, with
// zero being the leftmost argument. SQLite is free to discard the metadata at
// any time, including during the call to SetAuxData.
//
// Auxiliary data may be used by (non-aggregate) SQL functions to associate
// metadata with argument values. If the same value is passed to multiple
// invocations of the same SQL function during query execution, under some
// circumstances the associated metadata may be preserved. An example of where
// this might be useful is in a regular-expression matching function. The
// compiled version of the regular expression can be stored as metadata
// associated with the pattern string. Then as long as the pattern string
// remains the same, the compiled regular expression can be reused on multiple
// invocations of the same function.
//
// For more details, see https://www.sqlite.org/c3ref/get_auxdata.html
func (ctx Context) SetAuxData(arg int, data any) {
auxdata.mu.Lock()
id := auxdata.ids.next()
if auxdata.m == nil {
auxdata.m = make(map[uintptr]any)
}
auxdata.m[id] = data
auxdata.mu.Unlock()
deleteFn := cFuncPointer(freeAuxData)
lib.Xsqlite3_set_auxdata(ctx.tls, ctx.ptr, int32(arg), id, deleteFn)
}
func freeAuxData(tls *libc.TLS, id uintptr) {
auxdata.mu.Lock()
defer auxdata.mu.Unlock()
delete(auxdata.m, id)
auxdata.ids.reclaim(id)
}
func (ctx Context) result(v Value, err error) {
if err != nil {
ctx.resultError(err)
return
}
if v.tls != nil {
if ctx.tls != v.tls {
ctx.resultError(fmt.Errorf("function result Value from different connection"))
return
}
lib.Xsqlite3_result_value(ctx.tls, ctx.ptr, v.ptrOrType)
return
}
switch ColumnType(v.ptrOrType) {
case 0, TypeNull:
lib.Xsqlite3_result_null(ctx.tls, ctx.ptr)
case TypeInteger:
lib.Xsqlite3_result_int64(ctx.tls, ctx.ptr, v.n)
case TypeFloat:
lib.Xsqlite3_result_double(ctx.tls, ctx.ptr, v.float())
case TypeText:
if len(v.s) == 0 {
lib.Xsqlite3_result_text(ctx.tls, ctx.ptr, emptyCString, 0, sqliteStatic)
} else {
cv, err := libc.CString(v.s)
if err != nil {
ctx.resultError(fmt.Errorf("alloc function result: %w", err))
return
}
lib.Xsqlite3_result_text(ctx.tls, ctx.ptr, cv, int32(len(v.s)), freeFuncPtr)
}
case TypeBlob:
if len(v.s) == 0 {
lib.Xsqlite3_result_blob(ctx.tls, ctx.ptr, emptyCString, 0, sqliteStatic)
} else {
cv, err := malloc(ctx.tls, types.Size_t(len(v.s)))
if err != nil {
ctx.resultError(fmt.Errorf("alloc function result: %w", err))
return
}
copy(libc.GoBytes(cv, len(v.s)), v.s)
lib.Xsqlite3_result_blob(ctx.tls, ctx.ptr, cv, int32(len(v.s)), freeFuncPtr)
}
default:
panic("unknown result Value type")
}
}
func (ctx Context) resultError(err error) {
errstr := err.Error()
cerrstr, err := libc.CString(errstr)
if err != nil {
panic(err)
}
defer libc.Xfree(ctx.tls, cerrstr)
lib.Xsqlite3_result_error(ctx.tls, ctx.ptr, cerrstr, int32(len(errstr)))
lib.Xsqlite3_result_error_code(ctx.tls, ctx.ptr, int32(ErrCode(err)))
}
// Value represents a value that can be stored in a database table.
// The zero value is NULL.
// The accessor methods on Value may perform automatic conversions
// and thus methods on Value must not be called concurrently.
type Value struct {
tls *libc.TLS
ptrOrType uintptr // pointer to sqlite_value if tls != nil, ColumnType otherwise
s string
n int64 // if ptrOrType == 0 and n != 0, then indicates the "nochange" NULL.
}
// IntegerValue returns a new Value representing the given integer.
func IntegerValue(i int64) Value {
return Value{ptrOrType: uintptr(TypeInteger), n: i}
}
// FloatValue returns a new Value representing the given floating-point number.
func FloatValue(f float64) Value {
return Value{ptrOrType: uintptr(TypeFloat), n: int64(math.Float64bits(f))}
}
// TextValue returns a new Value representing the given string.
func TextValue(s string) Value {
return Value{ptrOrType: uintptr(TypeText), s: s}
}
// BlobValue returns a new blob Value, copying the bytes from the given
// byte slice.
func BlobValue(b []byte) Value {
return Value{ptrOrType: uintptr(TypeBlob), s: string(b)}
}
// Unchanged returns a NULL Value for which [Value.NoChange] reports true.
// This is only significant as the return value for the Column method of [VTableCursor].
func Unchanged() Value {
return Value{n: 1}
}
// Type returns the data type of the value. The result of Type is undefined if
// an automatic type conversion has occurred due to calling one of the other
// accessor methods.
func (v Value) Type() ColumnType {
if v.ptrOrType == 0 {
return TypeNull
}
if v.tls == nil {
return ColumnType(v.ptrOrType)
}
return ColumnType(lib.Xsqlite3_value_type(v.tls, v.ptrOrType))
}
// Conversions follow the table in https://sqlite.org/c3ref/column_blob.html
// Int returns the value as an integer.
func (v Value) Int() int {
return int(v.Int64())
}
// Int64 returns the value as a 64-bit integer.
func (v Value) Int64() int64 {
if v.ptrOrType == 0 {
return 0
}
if v.tls == nil {
switch ColumnType(v.ptrOrType) {
case TypeNull:
return 0
case TypeInteger:
return v.n
case TypeFloat:
return int64(v.float())
case TypeBlob, TypeText:
return castTextToInteger(v.s)
default:
panic("unknown value type")
}
}
return int64(lib.Xsqlite3_value_int64(v.tls, v.ptrOrType))
}
// castTextToInteger emulates the SQLite CAST operator for a TEXT value to
// INTEGER, as documented in https://sqlite.org/lang_expr.html#castexpr
func castTextToInteger(s string) int64 {
const digits = "0123456789"
s = strings.TrimSpace(s)
if len(s) > 0 && (s[0] == '+' || s[0] == '-') {
s = s[:1+len(longestPrefix(s[1:], digits))]
} else {
s = longestPrefix(s, digits)
}
n, _ := strconv.ParseInt(s, 10, 64)
return n
}
func longestPrefix(s string, allowSet string) string {
sloop:
for i := 0; i < len(s); i++ {
for j := 0; j < len(allowSet); j++ {
if s[i] == allowSet[j] {
continue sloop
}
}
return s[:i]
}
return s
}
// Float returns the value as floating-point number
func (v Value) Float() float64 {
if v.ptrOrType == 0 {
return 0
}
if v.tls == nil {
switch ColumnType(v.ptrOrType) {
case TypeNull:
return 0
case TypeInteger:
return float64(v.n)
case TypeFloat:
return v.float()
case TypeBlob, TypeText:
return castTextToReal(v.s)
default:
panic("unknown value type")
}
}
return float64(lib.Xsqlite3_value_double(v.tls, v.ptrOrType))
}
func (v Value) float() float64 { return math.Float64frombits(uint64(v.n)) }
// castTextToReal emulates the SQLite CAST operator for a TEXT value to
// REAL, as documented in https://sqlite.org/lang_expr.html#castexpr
func castTextToReal(s string) float64 {
s = strings.TrimSpace(s)
for ; len(s) > 0; s = s[:len(s)-1] {
n, err := strconv.ParseFloat(s, 64)
if !errors.Is(err, strconv.ErrSyntax) {
return n
}
}
return 0
}
// Text returns the value as a string.
func (v Value) Text() string {
if v.ptrOrType == 0 {
return ""
}
if v.tls == nil {
switch ColumnType(v.ptrOrType) {
case TypeNull:
return ""
case TypeInteger:
return strconv.FormatInt(v.n, 10)
case TypeFloat:
return strconv.FormatFloat(v.float(), 'g', -1, 64)
case TypeText, TypeBlob:
return v.s
default:
panic("unknown value type")
}
}
ptr := lib.Xsqlite3_value_text(v.tls, v.ptrOrType)
return goStringN(ptr, int(lib.Xsqlite3_value_bytes(v.tls, v.ptrOrType)))
}
// Blob returns a copy of the value as a blob.
func (v Value) Blob() []byte {
if v.ptrOrType == 0 {
return nil
}
if v.tls == nil {
switch ColumnType(v.ptrOrType) {
case TypeNull:
return nil
case TypeInteger:
return strconv.AppendInt(nil, v.n, 10)
case TypeFloat:
return strconv.AppendFloat(nil, v.float(), 'g', -1, 64)
case TypeBlob, TypeText:
return []byte(v.s)
default:
panic("unknown value type")
}
}
ptr := lib.Xsqlite3_value_blob(v.tls, v.ptrOrType)
return libc.GoBytes(ptr, int(lib.Xsqlite3_value_bytes(v.tls, v.ptrOrType)))
}
// NoChange reports whether a column
// corresponding to this value in a [VTable] Update method
// is unchanged by the UPDATE operation
// that the Update method call was invoked to implement
// and if the prior [VTableCursor] Column method call that was invoked
// to extract the value for that column returned [Unchanged].
func (v Value) NoChange() bool {
if v.ptrOrType == 0 {
return v.n != 0
}
if v.tls == nil {
return false
}
return lib.Xsqlite3_value_nochange(v.tls, v.ptrOrType) != 0
}
// FunctionImpl describes an [application-defined SQL function].
// Either Scalar or MakeAggregate must be set, but not both.
//
// [application-defined SQL function]: https://sqlite.org/appfunc.html
type FunctionImpl struct {
// NArgs is the required number of arguments that the function accepts.
// If NArgs is negative, then the function is variadic.
//
// Multiple function implementations may be registered with the same name
// with different numbers of required arguments.
NArgs int
// Scalar is called when a scalar function is invoked in SQL.
// The argument Values are not valid past the return of the function.
Scalar func(ctx Context, args []Value) (Value, error)
// MakeAggregate is called at the beginning of an evaluation of an aggregate function.
MakeAggregate func(ctx Context) (AggregateFunction, error)
// If Deterministic is true, the function must always give the same output
// when the input parameters are the same. This enables functions to be used
// in additional contexts like the WHERE clause of partial indexes and enables
// additional optimizations.
//
// See https://sqlite.org/c3ref/c_deterministic.html#sqlitedeterministic for
// more details.
Deterministic bool
// If AllowIndirect is false, then the function may only be invoked from
// top-level SQL. If AllowIndirect is true, then the function can be used in
// VIEWs, TRIGGERs, and schema structures (e.g. CHECK constraints and DEFAULT
// clauses).
//
// This is the inverse of SQLITE_DIRECTONLY. See
// https://sqlite.org/c3ref/c_deterministic.html#sqlitedirectonly for more
// details. This defaults to false for better security.
AllowIndirect bool
}
// An AggregateFunction is an invocation of an aggregate function.
// See the documentation for [aggregate function callbacks]
// and [application-defined window functions] for an overview.
//
// [aggregate function callbacks]: https://www.sqlite.org/appfunc.html#the_aggregate_function_callbacks
// [application-defined window functions]: https://www.sqlite.org/windowfunctions.html#user_defined_aggregate_window_functions
type AggregateFunction interface {
// Step is called for each row
// of an aggregate function's SQL invocation.
// The argument Values are not valid past the return of the function.
Step(ctx Context, rowArgs []Value) error
// WindowInverse is called to remove
// the oldest presently aggregated result of Step
// from the current window.
// The arguments are those passed to Step for the row being removed.
// The argument Values are not valid past the return of the function.
WindowInverse(ctx Context, rowArgs []Value) error
// WindowValue is called to get the current value of an aggregate function.
WindowValue(ctx Context) (Value, error)
// Finalize is called after all of the aggregate function's input rows
// have been stepped through.
// No other methods will be called on the AggregateFunction after calling Finalize.
Finalize(ctx Context)
}
// CreateFunction registers a Go function with SQLite
// for use in SQL queries.
//
// https://sqlite.org/appfunc.html
func (c *Conn) CreateFunction(name string, impl *FunctionImpl) error {
if c == nil {
return fmt.Errorf("sqlite: create function: nil connection")
}
if name == "" {
return fmt.Errorf("sqlite: create function: no name provided")
}
if impl.NArgs > 127 {
return fmt.Errorf("sqlite: create function %s: too many permitted arguments (%d)", name, impl.NArgs)
}
if impl.Scalar == nil && impl.MakeAggregate == nil {
return fmt.Errorf("sqlite: create function %s: must specify one of Scalar or MakeAggregate", name)
}
if impl.Scalar != nil && impl.MakeAggregate != nil {
return fmt.Errorf("sqlite: create function %s: both Scalar and MakeAggregate specified", name)
}
cname, err := libc.CString(name)
if err != nil {
return fmt.Errorf("sqlite: create function %s: %w", name, err)
}
defer libc.Xfree(c.tls, cname)
eTextRep := int32(lib.SQLITE_UTF8)
if impl.Deterministic {
eTextRep |= lib.SQLITE_DETERMINISTIC
}
if !impl.AllowIndirect {
eTextRep |= lib.SQLITE_DIRECTONLY
}
numArgs := impl.NArgs
if numArgs < 0 {
numArgs = -1
}
var res ResultCode
if impl.Scalar != nil {
xfuncs.mu.Lock()
id := xfuncs.ids.next()
xfuncs.m[id] = impl.Scalar
xfuncs.mu.Unlock()
res = ResultCode(lib.Xsqlite3_create_function_v2(
c.tls,
c.conn,
cname,
int32(numArgs),
eTextRep,
id,
cFuncPointer(funcTrampoline),
0,
0,
cFuncPointer(destroyScalarFunc),
))
} else {
xAggregateFactories.mu.Lock()
id := xAggregateFactories.ids.next()
xAggregateFactories.m[id] = impl.MakeAggregate
xAggregateFactories.mu.Unlock()
res = ResultCode(lib.Xsqlite3_create_window_function(
c.tls,
c.conn,
cname,
int32(numArgs),
eTextRep,
id,
cFuncPointer(stepTrampoline),
cFuncPointer(finalTrampoline),
cFuncPointer(valueTrampoline),
cFuncPointer(inverseTrampoline),
cFuncPointer(destroyAggregateFunc),
))
}
if err := res.ToError(); err != nil {
return fmt.Errorf("sqlite: create function %s: %w", name, err)
}
return nil
}
var xfuncs = struct {
mu sync.RWMutex
m map[uintptr]func(Context, []Value) (Value, error)
ids idGen
}{
m: make(map[uintptr]func(Context, []Value) (Value, error)),
}
func funcTrampoline(tls *libc.TLS, ctx uintptr, n int32, valarray uintptr) {
id := lib.Xsqlite3_user_data(tls, ctx)
xfuncs.mu.RLock()
x := xfuncs.m[id]
xfuncs.mu.RUnlock()
vals := make([]Value, 0, int(n))
for ; len(vals) < cap(vals); valarray += uintptr(ptrSize) {
vals = append(vals, Value{
tls: tls,
ptrOrType: *(*uintptr)(unsafe.Pointer(valarray)),
})
}
goCtx := Context{tls: tls, ptr: ctx}
goCtx.result(x(goCtx, vals))
}
func destroyScalarFunc(tls *libc.TLS, id uintptr) {
xfuncs.mu.Lock()
defer xfuncs.mu.Unlock()
delete(xfuncs.m, id)
xfuncs.ids.reclaim(id)
}
var (
xAggregateFactories = struct {
mu sync.RWMutex
m map[uintptr]func(Context) (AggregateFunction, error)
ids idGen
}{
m: make(map[uintptr]func(Context) (AggregateFunction, error)),
}
xAggregateContext = struct {
mu sync.RWMutex
m map[uintptr]AggregateFunction
ids idGen
}{
m: make(map[uintptr]AggregateFunction),
}
)
func makeAggregate(tls *libc.TLS, ctx uintptr) (AggregateFunction, uintptr) {
goCtx := Context{tls: tls, ptr: ctx}
aggCtx := (*uintptr)(unsafe.Pointer(lib.Xsqlite3_aggregate_context(tls, ctx, int32(ptrSize))))
if aggCtx == nil {
goCtx.resultError(errors.New("insufficient memory for aggregate"))
return nil, 0
}
if *aggCtx != 0 {
// Already created.
xAggregateContext.mu.RLock()
f := xAggregateContext.m[*aggCtx]
xAggregateContext.mu.RUnlock()
return f, *aggCtx
}
factoryID := lib.Xsqlite3_user_data(tls, ctx)
xAggregateFactories.mu.RLock()
factory := xAggregateFactories.m[factoryID]
xAggregateFactories.mu.RUnlock()
f, err := factory(goCtx)
if err != nil {
goCtx.resultError(err)
return nil, 0
}
if f == nil {
goCtx.resultError(errors.New("MakeAggregate function returned nil"))
return nil, 0
}
xAggregateContext.mu.Lock()
*aggCtx = xAggregateContext.ids.next()
xAggregateContext.m[*aggCtx] = f
xAggregateContext.mu.Unlock()
return f, *aggCtx
}
func stepTrampoline(tls *libc.TLS, ctx uintptr, n int32, valarray uintptr) {
x, _ := makeAggregate(tls, ctx)
if x == nil {
return
}
vals := make([]Value, 0, int(n))
for ; len(vals) < cap(vals); valarray += uintptr(ptrSize) {
vals = append(vals, Value{
tls: tls,
ptrOrType: *(*uintptr)(unsafe.Pointer(valarray)),
})
}
goCtx := Context{tls: tls, ptr: ctx}
if err := x.Step(goCtx, vals); err != nil {
goCtx.resultError(err)
}
}
func finalTrampoline(tls *libc.TLS, ctx uintptr) {
x, id := makeAggregate(tls, ctx)
if x == nil {
return
}
goCtx := Context{tls: tls, ptr: ctx}
goCtx.result(x.WindowValue(goCtx))
x.Finalize(goCtx)
xAggregateContext.mu.Lock()
defer xAggregateContext.mu.Unlock()
delete(xAggregateContext.m, id)
xAggregateContext.ids.reclaim(id)
}
func valueTrampoline(tls *libc.TLS, ctx uintptr) {
x, _ := makeAggregate(tls, ctx)
if x == nil {
return
}
goCtx := Context{tls: tls, ptr: ctx}
goCtx.result(x.WindowValue(goCtx))
}
func inverseTrampoline(tls *libc.TLS, ctx uintptr, n int32, valarray uintptr) {
x, _ := makeAggregate(tls, ctx)
if x == nil {
return
}
vals := make([]Value, 0, int(n))
for ; len(vals) < cap(vals); valarray += uintptr(ptrSize) {
vals = append(vals, Value{
tls: tls,
ptrOrType: *(*uintptr)(unsafe.Pointer(valarray)),
})
}
goCtx := Context{tls: tls, ptr: ctx}
if err := x.WindowInverse(goCtx, vals); err != nil {
goCtx.resultError(err)
}
}
func destroyAggregateFunc(tls *libc.TLS, id uintptr) {
xAggregateFactories.mu.Lock()
defer xAggregateFactories.mu.Unlock()
delete(xAggregateFactories.m, id)
xAggregateFactories.ids.reclaim(id)
}
// CollatingFunc is a [collating function/sequence],
// that is, a function that compares two strings.
// The function returns a negative number if a < b,
// a positive number if a > b,
// or zero if a == b.
// A collating function must always return the same answer given the same inputs.
// The collating function must obey the following properties for all strings A, B, and C:
//
// 1. If A==B then B==A.
// 2. If A==B and B==C then A==C.
// 3. If A<B then B>A.
// 4. If A<B and B<C then A<C.
//
// [collating function/sequence]: https://www.sqlite.org/datatype3.html#collation
type CollatingFunc func(a, b string) int
// SetCollation sets the [collating function] for the given name.
//
// [collating function]: https://www.sqlite.org/datatype3.html#collation
func (c *Conn) SetCollation(name string, compare CollatingFunc) error {
verb := "create"
if compare == nil {
verb = "remove"
}
if c == nil {
return fmt.Errorf("sqlite: %s collation: nil connection", verb)
}
if name == "" {
return fmt.Errorf("sqlite: %s collation: no name provided", verb)
}
cname, err := libc.CString(name)
if err != nil {
return fmt.Errorf("sqlite: %s collation: no name provided", verb)
}
defer libc.Xfree(c.tls, cname)
if compare == nil {
res := ResultCode(lib.Xsqlite3_create_collation_v2(
c.tls, c.conn, cname, lib.SQLITE_UTF8, 0, 0, 0,
))
if err := res.ToError(); err != nil {
return fmt.Errorf("sqlite: %s collation %s: %w", verb, name, err)
}
return nil
}
xcollations.mu.Lock()
id := xcollations.ids.next()
xcollations.m[id] = compare
xcollations.mu.Unlock()
res := ResultCode(lib.Xsqlite3_create_collation_v2(
c.tls, c.conn, cname, lib.SQLITE_UTF8, id, cFuncPointer(collationTrampoline), cFuncPointer(destroyCollation),
))
if err := res.ToError(); err != nil {
destroyCollation(c.tls, id)
return fmt.Errorf("sqlite: %s collation %s: %w", verb, name, err)
}
return nil
}
var xcollations = struct {
mu sync.RWMutex
m map[uintptr]CollatingFunc
ids idGen
}{
m: make(map[uintptr]CollatingFunc),
}
func collationTrampoline(tls *libc.TLS, id uintptr, n1 int32, p1 uintptr, n2 int32, p2 uintptr) int32 {
xcollations.mu.RLock()
f := xcollations.m[id]
xcollations.mu.RUnlock()
s1 := goStringN(p1, int(n1))
s2 := goStringN(p2, int(n2))
switch x := f(s1, s2); {
case x > 0:
return 1
case x < 0:
return -1
default:
return 0
}
}
func destroyCollation(tls *libc.TLS, id uintptr) {
xcollations.mu.Lock()
defer xcollations.mu.Unlock()
delete(xcollations.m, id)
xcollations.ids.reclaim(id)
}
// idGen is an ID generator. The zero value is ready to use.
type idGen struct {
bitset []uint64
}
func (gen *idGen) next() uintptr {
base := uintptr(1)
for i := 0; i < len(gen.bitset); i, base = i+1, base+64 {
b := gen.bitset[i]
if b != 1<<64-1 {
n := uintptr(bits.TrailingZeros64(^b))
gen.bitset[i] |= 1 << n
return base + n
}
}
gen.bitset = append(gen.bitset, 1)
return base
}
func (gen *idGen) reclaim(id uintptr) {
bit := id - 1
gen.bitset[bit/64] &^= 1 << (bit % 64)
}