Commit 29b246c6 authored by Gustavo Niemeyer's avatar Gustavo Niemeyer

template: support string, int and float literals

This enables customizing the behavior of formatters
with logic such as {"template"|import} or even
{Field1 Field2 "%.2f 0x%X"|printf}

Thanks to Roger Peppe for some debate on this.

R=golang-dev, r, r
CC=golang-dev
https://golang.org/cl/4536059
parent bddd092d
......@@ -76,6 +76,10 @@
executed sequentially, with each formatter receiving the bytes
emitted by the one to its left.
As well as field names, one may use literals with Go syntax.
Integer, floating-point, and string literals are supported.
Raw strings may not span newlines.
The delimiter strings get their default value, "{" and "}", from
JSON-template. They may be set to any non-empty, space-free
string using the SetDelims method. Their value can be printed
......@@ -91,6 +95,7 @@ import (
"io/ioutil"
"os"
"reflect"
"strconv"
"strings"
"unicode"
"utf8"
......@@ -151,10 +156,13 @@ type literalElement struct {
// A variable invocation to be evaluated
type variableElement struct {
linenum int
word []string // The fields in the invocation.
fmts []string // Names of formatters to apply. len(fmts) > 0
args []interface{} // The fields and literals in the invocation.
fmts []string // Names of formatters to apply. len(fmts) > 0
}
// A variableElement arg to be evaluated as a field name
type fieldName string
// A .section block, possibly with a .or
type sectionElement struct {
linenum int // of .section itself
......@@ -245,6 +253,31 @@ func equal(s []byte, n int, t []byte) bool {
return true
}
// isQuote returns true if c is a string- or character-delimiting quote character.
func isQuote(c byte) bool {
return c == '"' || c == '`' || c == '\''
}
// endQuote returns the end quote index for the quoted string that
// starts at n, or -1 if no matching end quote is found before the end
// of the line.
func endQuote(s []byte, n int) int {
quote := s[n]
for n++; n < len(s); n++ {
switch s[n] {
case '\\':
if quote == '"' || quote == '\'' {
n++
}
case '\n':
return -1
case quote:
return n
}
}
return -1
}
// nextItem returns the next item from the input buffer. If the returned
// item is empty, we are at EOF. The item will be either a
// delimited string or a non-empty string between delimited
......@@ -282,6 +315,14 @@ func (t *Template) nextItem() []byte {
if t.buf[i] == '\n' {
break
}
if isQuote(t.buf[i]) {
i = endQuote(t.buf, i)
if i == -1 {
t.parseError("unmatched quote")
return nil
}
continue
}
if equal(t.buf, i, t.rdelim) {
i += len(t.rdelim)
right = i
......@@ -333,23 +374,33 @@ func (t *Template) nextItem() []byte {
return item
}
// Turn a byte array into a white-space-split array of strings.
// Turn a byte array into a white-space-split array of strings,
// taking into account quoted strings.
func words(buf []byte) []string {
s := make([]string, 0, 5)
p := 0 // position in buf
// one word per loop
for i := 0; ; i++ {
// skip white space
for ; p < len(buf) && white(buf[p]); p++ {
}
// grab word
start := p
for ; p < len(buf) && !white(buf[p]); p++ {
for i := 0; i < len(buf); {
// One word per loop
for i < len(buf) && white(buf[i]) {
i++
}
if start == p { // no text left
if i == len(buf) {
break
}
s = append(s, string(buf[start:p]))
// Got a word
start := i
if isQuote(buf[i]) {
i = endQuote(buf, i)
if i < 0 {
i = len(buf)
} else {
i++
}
} else {
for i < len(buf) && !white(buf[i]) {
i++
}
}
s = append(s, string(buf[start:i]))
}
return s
}
......@@ -381,11 +432,17 @@ func (t *Template) analyze(item []byte) (tok int, w []string) {
t.parseError("empty directive")
return
}
if len(w) > 0 && w[0][0] != '.' {
first := w[0]
if first[0] != '.' {
tok = tokVariable
return
}
switch w[0] {
if len(first) > 1 && first[1] >= '0' && first[1] <= '9' {
// Must be a float.
tok = tokVariable
return
}
switch first {
case ".meta-left", ".meta-right", ".space", ".tab":
tok = tokLiteral
return
......@@ -447,6 +504,37 @@ func (t *Template) newVariable(words []string) *variableElement {
formatters = strings.Split(lastWord[bar+1:], "|", -1)
}
args := make([]interface{}, len(words))
// Build argument list, processing any literals
for i, word := range words {
var lerr os.Error
switch word[0] {
case '"', '`', '\'':
v, err := strconv.Unquote(word)
if err == nil && word[0] == '\'' {
args[i] = []int(v)[0]
} else {
args[i], lerr = v, err
}
case '.', '+', '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
v, err := strconv.Btoi64(word, 0)
if err == nil {
args[i] = v
} else {
v, err := strconv.Atof64(word)
args[i], lerr = v, err
}
default:
args[i] = fieldName(word)
}
if lerr != nil {
t.parseError("invalid literal: %q: %s", word, lerr)
}
}
// We could remember the function address here and avoid the lookup later,
// but it's more dynamic to let the user change the map contents underfoot.
// We do require the name to be present, though.
......@@ -457,7 +545,8 @@ func (t *Template) newVariable(words []string) *variableElement {
t.parseError("unknown formatter: %q", f)
}
}
return &variableElement{t.linenum, words, formatters}
return &variableElement{t.linenum, args, formatters}
}
// Grab the next item. If it's simple, just append it to the template.
......@@ -753,7 +842,7 @@ func (t *Template) varValue(name string, st *state) reflect.Value {
func (t *Template) format(wr io.Writer, fmt string, val []interface{}, v *variableElement, st *state) {
fn := t.formatter(fmt)
if fn == nil {
t.execError(st, v.linenum, "missing formatter %s for variable %s", fmt, v.word[0])
t.execError(st, v.linenum, "missing formatter %s for variable", fmt)
}
fn(wr, fmt, val...)
}
......@@ -761,12 +850,15 @@ func (t *Template) format(wr io.Writer, fmt string, val []interface{}, v *variab
// Evaluate a variable, looking up through the parent if necessary.
// If it has a formatter attached ({var|formatter}) run that too.
func (t *Template) writeVariable(v *variableElement, st *state) {
// Turn the words of the invocation into values.
val := make([]interface{}, len(v.word))
for i, word := range v.word {
val[i] = t.varValue(word, st).Interface()
// Resolve field names
val := make([]interface{}, len(v.args))
for i, arg := range v.args {
if name, ok := arg.(fieldName); ok {
val[i] = t.varValue(string(name), st).Interface()
} else {
val[i] = arg
}
}
for i, fmt := range v.fmts[:len(v.fmts)-1] {
b := &st.buf[i&1]
b.Reset()
......
......@@ -94,10 +94,15 @@ func multiword(w io.Writer, format string, value ...interface{}) {
}
}
func printf(w io.Writer, format string, v ...interface{}) {
io.WriteString(w, fmt.Sprintf(v[0].(string), v[1:]...))
}
var formatters = FormatterMap{
"uppercase": writer(uppercase),
"+1": writer(plus1),
"multiword": multiword,
"printf": printf,
}
var tests = []*Test{
......@@ -138,6 +143,36 @@ var tests = []*Test{
out: "nil pointer: <nil>=77\n",
},
&Test{
in: `{"Strings" ":"} {""} {"\t\u0123 \x23\\"} {"\"}{\\"}`,
out: "Strings: \t\u0123 \x23\\ \"}{\\",
},
&Test{
in: "{`Raw strings` `:`} {``} {`\\t\\u0123 \\x23\\`} {`}{\\`}",
out: "Raw strings: \\t\\u0123 \\x23\\ }{\\",
},
&Test{
in: "Characters: {'a'} {'\\u0123'} {' '} {'}'} {'{'}",
out: "Characters: 97 291 32 125 123",
},
&Test{
in: "Integers: {1} {-2} {+42} {0777} {0x0a}",
out: "Integers: 1 -2 42 511 10",
},
&Test{
in: "Floats: {.5} {-.5} {1.1} {-2.2} {+42.1} {1e10} {1.2e-3} {1.2e3} {-1.2e3}",
out: "Floats: 0.5 -0.5 1.1 -2.2 42.1 1e+10 0.0012 1200 -1200",
},
// Method at top level
&Test{
in: "ptrmethod={PointerMethod}\n",
......@@ -723,6 +758,10 @@ var formatterTests = []Test{
in: "{Integer|||||}", // empty string is a valid formatter
out: "77",
},
{
in: `{"%.02f 0x%02X" 1.1 10|printf}`,
out: "1.10 0x0A",
},
}
func TestFormatters(t *testing.T) {
......
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