Merge pull request #9606 from 9999years/printer

Support limiting attributes and list items in value printing to support detailed errors
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Robert Hensing 2024-01-12 13:27:56 +01:00 committed by GitHub
commit be6c86038b
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20 changed files with 1400 additions and 339 deletions

View file

@ -35,13 +35,50 @@ standard input.
- `--parse`\
Just parse the input files, and print their abstract syntax trees on
standard output in ATerm format.
standard output as a Nix expression.
- `--eval`\
Just parse and evaluate the input files, and print the resulting
values on standard output. No instantiation of store derivations
takes place.
> **Warning**
>
> This option produces ambiguous output which is not suitable for machine
> consumption. For example, these two Nix expressions print the same result
> despite having different types:
>
> ```console
> $ nix-instantiate --eval --expr '{ a = {}; }'
> { a = <CODE>; }
> $ nix-instantiate --eval --expr '{ a = <CODE>; }'
> { a = <CODE>; }
> ```
>
> For human-readable output, `nix eval` (experimental) is more informative:
>
> ```console
> $ nix-instantiate --eval --expr 'a: a'
> <LAMBDA>
> $ nix eval --expr 'a: a'
> «lambda @ «string»:1:1»
> ```
>
> For machine-readable output, the `--xml` option produces unambiguous
> output:
>
> ```console
> $ nix-instantiate --eval --xml --expr '{ foo = <CODE>; }'
> <?xml version='1.0' encoding='utf-8'?>
> <expr>
> <attrs>
> <attr column="3" line="1" name="foo">
> <unevaluated />
> </attr>
> </attrs>
> </expr>
> ```
- `--find-file`\
Look up the given files in Nixs search path (as specified by the
`NIX_PATH` environment variable). If found, print the corresponding
@ -61,11 +98,11 @@ standard input.
- `--json`\
When used with `--eval`, print the resulting value as an JSON
representation of the abstract syntax tree rather than as an ATerm.
representation of the abstract syntax tree rather than as a Nix expression.
- `--xml`\
When used with `--eval`, print the resulting value as an XML
representation of the abstract syntax tree rather than as an ATerm.
representation of the abstract syntax tree rather than as a Nix expression.
The schema is the same as that used by the [`toXML`
built-in](../language/builtins.md).
@ -133,28 +170,29 @@ $ nix-instantiate --eval --xml --expr '1 + 2'
The difference between non-strict and strict evaluation:
```console
$ nix-instantiate --eval --xml --expr 'rec { x = "foo"; y = x; }'
...
<attr name="x">
<string value="foo" />
</attr>
<attr name="y">
$ nix-instantiate --eval --xml --expr '{ x = {}; }'
<?xml version='1.0' encoding='utf-8'?>
<expr>
<attrs>
<attr column="3" line="1" name="x">
<unevaluated />
</attr>
...
</attrs>
</expr>
```
Note that `y` is left unevaluated (the XML representation doesnt
attempt to show non-normal forms).
```console
$ nix-instantiate --eval --xml --strict --expr 'rec { x = "foo"; y = x; }'
...
<attr name="x">
<string value="foo" />
$ nix-instantiate --eval --xml --strict --expr '{ x = {}; }'
<?xml version='1.0' encoding='utf-8'?>
<expr>
<attrs>
<attr column="3" line="1" name="x">
<attrs>
</attrs>
</attr>
<attr name="y">
<string value="foo" />
</attr>
...
</attrs>
</expr>
```

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@ -93,9 +93,17 @@ struct NixRepl
void evalString(std::string s, Value & v);
void loadDebugTraceEnv(DebugTrace & dt);
typedef std::set<Value *> ValuesSeen;
std::ostream & printValue(std::ostream & str, Value & v, unsigned int maxDepth);
std::ostream & printValue(std::ostream & str, Value & v, unsigned int maxDepth, ValuesSeen & seen);
void printValue(std::ostream & str,
Value & v,
unsigned int maxDepth = std::numeric_limits<unsigned int>::max())
{
::nix::printValue(*state, str, v, PrintOptions {
.ansiColors = true,
.force = true,
.derivationPaths = true,
.maxDepth = maxDepth
});
}
};
std::string removeWhitespace(std::string s)
@ -708,7 +716,8 @@ bool NixRepl::processLine(std::string line)
else if (command == ":p" || command == ":print") {
Value v;
evalString(arg, v);
printValue(std::cout, v, 1000000000) << std::endl;
printValue(std::cout, v);
std::cout << std::endl;
}
else if (command == ":q" || command == ":quit") {
@ -770,7 +779,8 @@ bool NixRepl::processLine(std::string line)
} else {
Value v;
evalString(line, v);
printValue(std::cout, v, 1) << std::endl;
printValue(std::cout, v, 1);
std::cout << std::endl;
}
}
@ -892,144 +902,6 @@ void NixRepl::evalString(std::string s, Value & v)
}
std::ostream & NixRepl::printValue(std::ostream & str, Value & v, unsigned int maxDepth)
{
ValuesSeen seen;
return printValue(str, v, maxDepth, seen);
}
// FIXME: lot of cut&paste from Nix's eval.cc.
std::ostream & NixRepl::printValue(std::ostream & str, Value & v, unsigned int maxDepth, ValuesSeen & seen)
{
str.flush();
checkInterrupt();
state->forceValue(v, v.determinePos(noPos));
switch (v.type()) {
case nInt:
str << ANSI_CYAN << v.integer << ANSI_NORMAL;
break;
case nBool:
str << ANSI_CYAN;
printLiteralBool(str, v.boolean);
str << ANSI_NORMAL;
break;
case nString:
str << ANSI_WARNING;
printLiteralString(str, v.string_view());
str << ANSI_NORMAL;
break;
case nPath:
str << ANSI_GREEN << v.path().to_string() << ANSI_NORMAL; // !!! escaping?
break;
case nNull:
str << ANSI_CYAN "null" ANSI_NORMAL;
break;
case nAttrs: {
seen.insert(&v);
bool isDrv = state->isDerivation(v);
if (isDrv) {
str << "«derivation ";
Bindings::iterator i = v.attrs->find(state->sDrvPath);
NixStringContext context;
if (i != v.attrs->end())
str << state->store->printStorePath(state->coerceToStorePath(i->pos, *i->value, context, "while evaluating the drvPath of a derivation"));
else
str << "???";
str << "»";
}
else if (maxDepth > 0) {
str << "{ ";
typedef std::map<std::string, Value *> Sorted;
Sorted sorted;
for (auto & i : *v.attrs)
sorted.emplace(state->symbols[i.name], i.value);
for (auto & i : sorted) {
printAttributeName(str, i.first);
str << " = ";
if (seen.count(i.second))
str << "«repeated»";
else
try {
printValue(str, *i.second, maxDepth - 1, seen);
} catch (AssertionError & e) {
str << ANSI_RED "«error: " << e.msg() << "»" ANSI_NORMAL;
}
str << "; ";
}
str << "}";
} else
str << "{ ... }";
break;
}
case nList:
seen.insert(&v);
str << "[ ";
if (maxDepth > 0)
for (auto elem : v.listItems()) {
if (seen.count(elem))
str << "«repeated»";
else
try {
printValue(str, *elem, maxDepth - 1, seen);
} catch (AssertionError & e) {
str << ANSI_RED "«error: " << e.msg() << "»" ANSI_NORMAL;
}
str << " ";
}
else
str << "... ";
str << "]";
break;
case nFunction:
if (v.isLambda()) {
std::ostringstream s;
s << state->positions[v.lambda.fun->pos];
str << ANSI_BLUE "«lambda @ " << filterANSIEscapes(s.str()) << "»" ANSI_NORMAL;
} else if (v.isPrimOp()) {
str << ANSI_MAGENTA "«primop»" ANSI_NORMAL;
} else if (v.isPrimOpApp()) {
str << ANSI_BLUE "«primop-app»" ANSI_NORMAL;
} else {
abort();
}
break;
case nFloat:
str << v.fpoint;
break;
case nThunk:
case nExternal:
default:
str << ANSI_RED "«unknown»" ANSI_NORMAL;
break;
}
return str;
}
std::unique_ptr<AbstractNixRepl> AbstractNixRepl::create(
const SearchPath & searchPath, nix::ref<Store> store, ref<EvalState> state,
std::function<AnnotatedValues()> getValues)

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@ -105,117 +105,23 @@ RootValue allocRootValue(Value * v)
#endif
}
void Value::print(const SymbolTable &symbols, std::ostream &str,
std::set<const void *> *seen, int depth) const
{
checkInterrupt();
if (depth <= 0) {
str << "«too deep»";
return;
}
switch (internalType) {
case tInt:
str << integer;
break;
case tBool:
printLiteralBool(str, boolean);
break;
case tString:
printLiteralString(str, string_view());
break;
case tPath:
str << path().to_string(); // !!! escaping?
break;
case tNull:
str << "null";
break;
case tAttrs: {
if (seen && !attrs->empty() && !seen->insert(attrs).second)
str << "«repeated»";
else {
str << "{ ";
for (auto & i : attrs->lexicographicOrder(symbols)) {
str << symbols[i->name] << " = ";
i->value->print(symbols, str, seen, depth - 1);
str << "; ";
}
str << "}";
}
break;
}
case tList1:
case tList2:
case tListN:
if (seen && listSize() && !seen->insert(listElems()).second)
str << "«repeated»";
else {
str << "[ ";
for (auto v2 : listItems()) {
if (v2)
v2->print(symbols, str, seen, depth - 1);
else
str << "(nullptr)";
str << " ";
}
str << "]";
}
break;
case tThunk:
case tApp:
if (!isBlackhole()) {
str << "<CODE>";
} else {
// Although we know for sure that it's going to be an infinite recursion
// when this value is accessed _in the current context_, it's likely
// that the user will misinterpret a simpler «infinite recursion» output
// as a definitive statement about the value, while in fact it may be
// a valid value after `builtins.trace` and perhaps some other steps
// have completed.
str << "«potential infinite recursion»";
}
break;
case tLambda:
str << "<LAMBDA>";
break;
case tPrimOp:
str << "<PRIMOP>";
break;
case tPrimOpApp:
str << "<PRIMOP-APP>";
break;
case tExternal:
str << *external;
break;
case tFloat:
str << fpoint;
break;
default:
printError("Nix evaluator internal error: Value::print(): invalid value type %1%", internalType);
abort();
}
}
void Value::print(const SymbolTable &symbols, std::ostream &str,
bool showRepeated, int depth) const {
std::set<const void *> seen;
print(symbols, str, showRepeated ? nullptr : &seen, depth);
}
// Pretty print types for assertion errors
std::ostream & operator << (std::ostream & os, const ValueType t) {
os << showType(t);
return os;
}
std::string printValue(const EvalState & state, const Value & v)
std::string printValue(EvalState & state, Value & v)
{
std::ostringstream out;
v.print(state.symbols, out);
v.print(state, out);
return out.str();
}
void Value::print(EvalState & state, std::ostream & str, PrintOptions options)
{
printValue(state, str, *this, options);
}
const Value * getPrimOp(const Value &v) {
const Value * primOp = &v;
@ -710,6 +616,26 @@ void PrimOp::check()
}
std::ostream & operator<<(std::ostream & output, PrimOp & primOp)
{
output << "primop " << primOp.name;
return output;
}
PrimOp * Value::primOpAppPrimOp() const
{
Value * left = primOpApp.left;
while (left && !left->isPrimOp()) {
left = left->primOpApp.left;
}
if (!left)
return nullptr;
return left->primOp;
}
void Value::mkPrimOp(PrimOp * p)
{
p->check();

View file

@ -84,6 +84,8 @@ struct PrimOp
void check();
};
std::ostream & operator<<(std::ostream & output, PrimOp & primOp);
/**
* Info about a constant
*/
@ -127,7 +129,7 @@ std::unique_ptr<ValMap> mapStaticEnvBindings(const SymbolTable & st, const Stati
void copyContext(const Value & v, NixStringContext & context);
std::string printValue(const EvalState & state, const Value & v);
std::string printValue(EvalState & state, Value & v);
std::ostream & operator << (std::ostream & os, const ValueType t);

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@ -0,0 +1,100 @@
#include "print-ambiguous.hh"
#include "print.hh"
#include "signals.hh"
namespace nix {
// See: https://github.com/NixOS/nix/issues/9730
void printAmbiguous(
Value &v,
const SymbolTable &symbols,
std::ostream &str,
std::set<const void *> *seen,
int depth)
{
checkInterrupt();
if (depth <= 0) {
str << "«too deep»";
return;
}
switch (v.type()) {
case nInt:
str << v.integer;
break;
case nBool:
printLiteralBool(str, v.boolean);
break;
case nString:
printLiteralString(str, v.string_view());
break;
case nPath:
str << v.path().to_string(); // !!! escaping?
break;
case nNull:
str << "null";
break;
case nAttrs: {
if (seen && !v.attrs->empty() && !seen->insert(v.attrs).second)
str << "«repeated»";
else {
str << "{ ";
for (auto & i : v.attrs->lexicographicOrder(symbols)) {
str << symbols[i->name] << " = ";
printAmbiguous(*i->value, symbols, str, seen, depth - 1);
str << "; ";
}
str << "}";
}
break;
}
case nList:
if (seen && v.listSize() && !seen->insert(v.listElems()).second)
str << "«repeated»";
else {
str << "[ ";
for (auto v2 : v.listItems()) {
if (v2)
printAmbiguous(*v2, symbols, str, seen, depth - 1);
else
str << "(nullptr)";
str << " ";
}
str << "]";
}
break;
case nThunk:
if (!v.isBlackhole()) {
str << "<CODE>";
} else {
// Although we know for sure that it's going to be an infinite recursion
// when this value is accessed _in the current context_, it's likely
// that the user will misinterpret a simpler «infinite recursion» output
// as a definitive statement about the value, while in fact it may be
// a valid value after `builtins.trace` and perhaps some other steps
// have completed.
str << "«potential infinite recursion»";
}
break;
case nFunction:
if (v.isLambda()) {
str << "<LAMBDA>";
} else if (v.isPrimOp()) {
str << "<PRIMOP>";
} else if (v.isPrimOpApp()) {
str << "<PRIMOP-APP>";
}
break;
case nExternal:
str << *v.external;
break;
case nFloat:
str << v.fpoint;
break;
default:
printError("Nix evaluator internal error: printAmbiguous: invalid value type");
abort();
}
}
}

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@ -0,0 +1,24 @@
#pragma once
#include "value.hh"
namespace nix {
/**
* Print a value in the deprecated format used by `nix-instantiate --eval` and
* `nix-env` (for manifests).
*
* This output can't be changed because it's part of the `nix-instantiate` API,
* but it produces ambiguous output; unevaluated thunks and lambdas (and a few
* other types) are printed as Nix path syntax like `<CODE>`.
*
* See: https://github.com/NixOS/nix/issues/9730
*/
void printAmbiguous(
Value &v,
const SymbolTable &symbols,
std::ostream &str,
std::set<const void *> *seen,
int depth);
}

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@ -0,0 +1,52 @@
#pragma once
/**
* @file
* @brief Options for printing Nix values.
*/
#include <limits>
namespace nix {
/**
* Options for printing Nix values.
*/
struct PrintOptions
{
/**
* If true, output ANSI color sequences.
*/
bool ansiColors = false;
/**
* If true, force values.
*/
bool force = false;
/**
* If true and `force` is set, print derivations as
* `«derivation /nix/store/...»` instead of as attribute sets.
*/
bool derivationPaths = false;
/**
* If true, track which values have been printed and skip them on
* subsequent encounters. Useful for self-referential values.
*/
bool trackRepeated = true;
/**
* Maximum depth to evaluate to.
*/
size_t maxDepth = std::numeric_limits<size_t>::max();
/**
* Maximum number of attributes in an attribute set to print.
*/
size_t maxAttrs = std::numeric_limits<size_t>::max();
/**
* Maximum number of list items to print.
*/
size_t maxListItems = std::numeric_limits<size_t>::max();
/**
* Maximum string length to print.
*/
size_t maxStringLength = std::numeric_limits<size_t>::max();
};
}

View file

@ -1,24 +1,66 @@
#include "print.hh"
#include <limits>
#include <unordered_set>
#include "print.hh"
#include "ansicolor.hh"
#include "signals.hh"
#include "store-api.hh"
#include "terminal.hh"
#include "english.hh"
namespace nix {
std::ostream &
printLiteralString(std::ostream & str, const std::string_view string)
void printElided(
std::ostream & output,
unsigned int value,
const std::string_view single,
const std::string_view plural,
bool ansiColors)
{
if (ansiColors)
output << ANSI_FAINT;
output << " «";
pluralize(output, value, single, plural);
output << " elided»";
if (ansiColors)
output << ANSI_NORMAL;
}
std::ostream &
printLiteralString(std::ostream & str, const std::string_view string, size_t maxLength, bool ansiColors)
{
size_t charsPrinted = 0;
if (ansiColors)
str << ANSI_MAGENTA;
str << "\"";
for (auto i = string.begin(); i != string.end(); ++i) {
if (charsPrinted >= maxLength) {
str << "\"";
printElided(str, string.length() - charsPrinted, "byte", "bytes", ansiColors);
return str;
}
if (*i == '\"' || *i == '\\') str << "\\" << *i;
else if (*i == '\n') str << "\\n";
else if (*i == '\r') str << "\\r";
else if (*i == '\t') str << "\\t";
else if (*i == '$' && *(i+1) == '{') str << "\\" << *i;
else str << *i;
charsPrinted++;
}
str << "\"";
if (ansiColors)
str << ANSI_NORMAL;
return str;
}
std::ostream &
printLiteralString(std::ostream & str, const std::string_view string)
{
return printLiteralString(str, string, std::numeric_limits<size_t>::max(), false);
}
std::ostream &
printLiteralBool(std::ostream & str, bool boolean)
{
@ -90,5 +132,373 @@ printAttributeName(std::ostream & str, std::string_view name) {
return str;
}
bool isImportantAttrName(const std::string& attrName)
{
return attrName == "type" || attrName == "_type";
}
typedef std::pair<std::string, Value *> AttrPair;
struct ImportantFirstAttrNameCmp
{
bool operator()(const AttrPair& lhs, const AttrPair& rhs) const
{
auto lhsIsImportant = isImportantAttrName(lhs.first);
auto rhsIsImportant = isImportantAttrName(rhs.first);
return std::forward_as_tuple(!lhsIsImportant, lhs.first)
< std::forward_as_tuple(!rhsIsImportant, rhs.first);
}
};
typedef std::set<Value *> ValuesSeen;
class Printer
{
private:
std::ostream & output;
EvalState & state;
PrintOptions options;
std::optional<ValuesSeen> seen;
void printRepeated()
{
if (options.ansiColors)
output << ANSI_MAGENTA;
output << "«repeated»";
if (options.ansiColors)
output << ANSI_NORMAL;
}
void printNullptr()
{
if (options.ansiColors)
output << ANSI_MAGENTA;
output << "«nullptr»";
if (options.ansiColors)
output << ANSI_NORMAL;
}
void printElided(unsigned int value, const std::string_view single, const std::string_view plural)
{
::nix::printElided(output, value, single, plural, options.ansiColors);
}
void printInt(Value & v)
{
if (options.ansiColors)
output << ANSI_CYAN;
output << v.integer;
if (options.ansiColors)
output << ANSI_NORMAL;
}
void printFloat(Value & v)
{
if (options.ansiColors)
output << ANSI_CYAN;
output << v.fpoint;
if (options.ansiColors)
output << ANSI_NORMAL;
}
void printBool(Value & v)
{
if (options.ansiColors)
output << ANSI_CYAN;
printLiteralBool(output, v.boolean);
if (options.ansiColors)
output << ANSI_NORMAL;
}
void printString(Value & v)
{
printLiteralString(output, v.string_view(), options.maxStringLength, options.ansiColors);
}
void printPath(Value & v)
{
if (options.ansiColors)
output << ANSI_GREEN;
output << v.path().to_string(); // !!! escaping?
if (options.ansiColors)
output << ANSI_NORMAL;
}
void printNull()
{
if (options.ansiColors)
output << ANSI_CYAN;
output << "null";
if (options.ansiColors)
output << ANSI_NORMAL;
}
void printDerivation(Value & v)
{
try {
Bindings::iterator i = v.attrs->find(state.sDrvPath);
NixStringContext context;
std::string storePath;
if (i != v.attrs->end())
storePath = state.store->printStorePath(state.coerceToStorePath(i->pos, *i->value, context, "while evaluating the drvPath of a derivation"));
if (options.ansiColors)
output << ANSI_GREEN;
output << "«derivation";
if (!storePath.empty()) {
output << " " << storePath;
}
output << "»";
if (options.ansiColors)
output << ANSI_NORMAL;
} catch (BaseError & e) {
printError_(e);
}
}
void printAttrs(Value & v, size_t depth)
{
if (seen && !seen->insert(&v).second) {
printRepeated();
return;
}
if (options.force && options.derivationPaths && state.isDerivation(v)) {
printDerivation(v);
} else if (depth < options.maxDepth) {
output << "{ ";
std::vector<std::pair<std::string, Value *>> sorted;
for (auto & i : *v.attrs)
sorted.emplace_back(std::pair(state.symbols[i.name], i.value));
if (options.maxAttrs == std::numeric_limits<size_t>::max())
std::sort(sorted.begin(), sorted.end());
else
std::sort(sorted.begin(), sorted.end(), ImportantFirstAttrNameCmp());
size_t attrsPrinted = 0;
for (auto & i : sorted) {
if (attrsPrinted >= options.maxAttrs) {
printElided(sorted.size() - attrsPrinted, "attribute", "attributes");
break;
}
printAttributeName(output, i.first);
output << " = ";
print(*i.second, depth + 1);
output << "; ";
attrsPrinted++;
}
output << "}";
} else
output << "{ ... }";
}
void printList(Value & v, size_t depth)
{
if (seen && v.listSize() && !seen->insert(&v).second) {
printRepeated();
return;
}
output << "[ ";
if (depth < options.maxDepth) {
size_t listItemsPrinted = 0;
for (auto elem : v.listItems()) {
if (listItemsPrinted >= options.maxListItems) {
printElided(v.listSize() - listItemsPrinted, "item", "items");
break;
}
if (elem) {
print(*elem, depth + 1);
} else {
printNullptr();
}
output << " ";
listItemsPrinted++;
}
}
else
output << "... ";
output << "]";
}
void printFunction(Value & v)
{
if (options.ansiColors)
output << ANSI_BLUE;
output << "«";
if (v.isLambda()) {
output << "lambda";
if (v.lambda.fun) {
if (v.lambda.fun->name) {
output << " " << state.symbols[v.lambda.fun->name];
}
std::ostringstream s;
s << state.positions[v.lambda.fun->pos];
output << " @ " << filterANSIEscapes(s.str());
}
} else if (v.isPrimOp()) {
if (v.primOp)
output << *v.primOp;
else
output << "primop";
} else if (v.isPrimOpApp()) {
output << "partially applied ";
auto primOp = v.primOpAppPrimOp();
if (primOp)
output << *primOp;
else
output << "primop";
} else {
abort();
}
output << "»";
if (options.ansiColors)
output << ANSI_NORMAL;
}
void printThunk(Value & v)
{
if (v.isBlackhole()) {
// Although we know for sure that it's going to be an infinite recursion
// when this value is accessed _in the current context_, it's likely
// that the user will misinterpret a simpler «infinite recursion» output
// as a definitive statement about the value, while in fact it may be
// a valid value after `builtins.trace` and perhaps some other steps
// have completed.
if (options.ansiColors)
output << ANSI_RED;
output << "«potential infinite recursion»";
if (options.ansiColors)
output << ANSI_NORMAL;
} else if (v.isThunk() || v.isApp()) {
if (options.ansiColors)
output << ANSI_MAGENTA;
output << "«thunk»";
if (options.ansiColors)
output << ANSI_NORMAL;
} else {
abort();
}
}
void printExternal(Value & v)
{
v.external->print(output);
}
void printUnknown()
{
if (options.ansiColors)
output << ANSI_RED;
output << "«unknown»";
if (options.ansiColors)
output << ANSI_NORMAL;
}
void printError_(BaseError & e)
{
if (options.ansiColors)
output << ANSI_RED;
output << "«" << e.msg() << "»";
if (options.ansiColors)
output << ANSI_NORMAL;
}
void print(Value & v, size_t depth)
{
output.flush();
checkInterrupt();
if (options.force) {
try {
state.forceValue(v, v.determinePos(noPos));
} catch (BaseError & e) {
printError_(e);
return;
}
}
switch (v.type()) {
case nInt:
printInt(v);
break;
case nFloat:
printFloat(v);
break;
case nBool:
printBool(v);
break;
case nString:
printString(v);
break;
case nPath:
printPath(v);
break;
case nNull:
printNull();
break;
case nAttrs:
printAttrs(v, depth);
break;
case nList:
printList(v, depth);
break;
case nFunction:
printFunction(v);
break;
case nThunk:
printThunk(v);
break;
case nExternal:
printExternal(v);
break;
default:
printUnknown();
break;
}
}
public:
Printer(std::ostream & output, EvalState & state, PrintOptions options)
: output(output), state(state), options(options) { }
void print(Value & v)
{
if (options.trackRepeated) {
seen.emplace();
} else {
seen.reset();
}
ValuesSeen seen;
print(v, 0);
}
};
void printValue(EvalState & state, std::ostream & output, Value & v, PrintOptions options)
{
Printer(output, state, options).print(v);
}
}

View file

@ -9,39 +9,44 @@
#include <iostream>
#include "eval.hh"
#include "print-options.hh"
namespace nix {
/**
/**
* Print a string as a Nix string literal.
*
* Quotes and fairly minimal escaping are added.
*
* @param o The output stream to print to
* @param s The logical string
*/
std::ostream & printLiteralString(std::ostream & o, std::string_view s);
inline std::ostream & printLiteralString(std::ostream & o, const char * s) {
std::ostream & printLiteralString(std::ostream & o, std::string_view s);
inline std::ostream & printLiteralString(std::ostream & o, const char * s) {
return printLiteralString(o, std::string_view(s));
}
inline std::ostream & printLiteralString(std::ostream & o, const std::string & s) {
}
inline std::ostream & printLiteralString(std::ostream & o, const std::string & s) {
return printLiteralString(o, std::string_view(s));
}
}
/** Print `true` or `false`. */
std::ostream & printLiteralBool(std::ostream & o, bool b);
/** Print `true` or `false`. */
std::ostream & printLiteralBool(std::ostream & o, bool b);
/**
/**
* Print a string as an attribute name in the Nix expression language syntax.
*
* Prints a quoted string if necessary.
*/
std::ostream & printAttributeName(std::ostream & o, std::string_view s);
std::ostream & printAttributeName(std::ostream & o, std::string_view s);
/**
/**
* Returns `true' is a string is a reserved keyword which requires quotation
* when printing attribute set field names.
*/
bool isReservedKeyword(const std::string_view str);
bool isReservedKeyword(const std::string_view str);
/**
/**
* Print a string as an identifier in the Nix expression language syntax.
*
* FIXME: "identifier" is ambiguous. Identifiers do not have a single
@ -50,5 +55,8 @@ namespace nix {
* expression, or something else entirely, like JSON. Use one of the
* `print*` functions instead.
*/
std::ostream & printIdentifier(std::ostream & o, std::string_view s);
std::ostream & printIdentifier(std::ostream & o, std::string_view s);
void printValue(EvalState & state, std::ostream & str, Value & v, PrintOptions options = PrintOptions {});
}

View file

@ -9,6 +9,7 @@
#include "value/context.hh"
#include "input-accessor.hh"
#include "source-path.hh"
#include "print-options.hh"
#if HAVE_BOEHMGC
#include <gc/gc_allocator.h>
@ -70,7 +71,7 @@ struct Pos;
class StorePath;
class EvalState;
class XMLWriter;
class Printer;
typedef int64_t NixInt;
typedef double NixFloat;
@ -82,6 +83,7 @@ typedef double NixFloat;
class ExternalValueBase
{
friend std::ostream & operator << (std::ostream & str, const ExternalValueBase & v);
friend class Printer;
protected:
/**
* Print out the value
@ -139,11 +141,9 @@ private:
friend std::string showType(const Value & v);
void print(const SymbolTable &symbols, std::ostream &str, std::set<const void *> *seen, int depth) const;
public:
void print(const SymbolTable &symbols, std::ostream &str, bool showRepeated = false, int depth = INT_MAX) const;
void print(EvalState &state, std::ostream &str, PrintOptions options = PrintOptions {});
// Functions needed to distinguish the type
// These should be removed eventually, by putting the functionality that's
@ -364,10 +364,15 @@ public:
inline void mkPrimOpApp(Value * l, Value * r)
{
internalType = tPrimOpApp;
app.left = l;
app.right = r;
primOpApp.left = l;
primOpApp.right = r;
}
/**
* For a `tPrimOpApp` value, get the original `PrimOp` value.
*/
PrimOp * primOpAppPrimOp() const;
inline void mkExternal(ExternalValueBase * e)
{
clearValue();

18
src/libutil/english.cc Normal file
View file

@ -0,0 +1,18 @@
#include "english.hh"
namespace nix {
std::ostream & pluralize(
std::ostream & output,
unsigned int count,
const std::string_view single,
const std::string_view plural)
{
if (count == 1)
output << "1 " << single;
else
output << count << " " << plural;
return output;
}
}

18
src/libutil/english.hh Normal file
View file

@ -0,0 +1,18 @@
#pragma once
#include <iostream>
namespace nix {
/**
* Pluralize a given value.
*
* If `count == 1`, prints `1 {single}` to `output`, otherwise prints `{count} {plural}`.
*/
std::ostream & pluralize(
std::ostream & output,
unsigned int count,
const std::string_view single,
const std::string_view plural);
}

View file

@ -8,6 +8,8 @@
#include "eval.hh"
#include "eval-inline.hh"
#include "profiles.hh"
#include "print-ambiguous.hh"
#include <limits>
namespace nix {
@ -106,7 +108,7 @@ bool createUserEnv(EvalState & state, DrvInfos & elems,
environment. */
auto manifestFile = ({
std::ostringstream str;
manifest.print(state.symbols, str, true);
printAmbiguous(manifest, state.symbols, str, nullptr, std::numeric_limits<int>::max());
// TODO with C++20 we can use str.view() instead and avoid copy.
std::string str2 = str.str();
StringSource source { str2 };

View file

@ -1,9 +1,11 @@
#include "globals.hh"
#include "print-ambiguous.hh"
#include "shared.hh"
#include "eval.hh"
#include "eval-inline.hh"
#include "get-drvs.hh"
#include "attr-path.hh"
#include "signals.hh"
#include "value-to-xml.hh"
#include "value-to-json.hh"
#include "store-api.hh"
@ -24,7 +26,6 @@ static int rootNr = 0;
enum OutputKind { okPlain, okXML, okJSON };
void processExpr(EvalState & state, const Strings & attrPaths,
bool parseOnly, bool strict, Bindings & autoArgs,
bool evalOnly, OutputKind output, bool location, Expr * e)
@ -56,7 +57,8 @@ void processExpr(EvalState & state, const Strings & attrPaths,
std::cout << std::endl;
} else {
if (strict) state.forceValueDeep(vRes);
vRes.print(state.symbols, std::cout);
std::set<const void *> seen;
printAmbiguous(vRes, state.symbols, std::cout, &seen, std::numeric_limits<int>::max());
std::cout << std::endl;
}
} else {

View file

@ -1 +1 @@
trace: [ <CODE> ]
trace: [ «thunk» ]

View file

@ -0,0 +1 @@
[ { } { } ]

View file

@ -0,0 +1,2 @@
# Tests that empty attribute sets are not printed as `«repeated»`.
[ {} {} ]

View file

@ -0,0 +1 @@
[ [ ] [ ] ]

View file

@ -0,0 +1 @@
[ [] [] ]

View file

@ -1,6 +1,7 @@
#include "tests/libexpr.hh"
#include "value.hh"
#include "print.hh"
namespace nix {
@ -12,7 +13,7 @@ struct ValuePrintingTests : LibExprTest
void test(Value v, std::string_view expected, A... args)
{
std::stringstream out;
v.print(state.symbols, out, args...);
v.print(state, out, args...);
ASSERT_EQ(out.str(), expected);
}
};
@ -84,7 +85,7 @@ TEST_F(ValuePrintingTests, tList)
vList.bigList.elems[1] = &vTwo;
vList.bigList.size = 3;
test(vList, "[ 1 2 (nullptr) ]");
test(vList, "[ 1 2 «nullptr» ]");
}
TEST_F(ValuePrintingTests, vThunk)
@ -92,7 +93,7 @@ TEST_F(ValuePrintingTests, vThunk)
Value vThunk;
vThunk.mkThunk(nullptr, nullptr);
test(vThunk, "<CODE>");
test(vThunk, "«thunk»");
}
TEST_F(ValuePrintingTests, vApp)
@ -100,32 +101,55 @@ TEST_F(ValuePrintingTests, vApp)
Value vApp;
vApp.mkApp(nullptr, nullptr);
test(vApp, "<CODE>");
test(vApp, "«thunk»");
}
TEST_F(ValuePrintingTests, vLambda)
{
Value vLambda;
vLambda.mkLambda(nullptr, nullptr);
Env env {
.up = nullptr,
.values = { }
};
PosTable::Origin origin((std::monostate()));
auto posIdx = state.positions.add(origin, 1, 1);
auto body = ExprInt(0);
auto formals = Formals {};
test(vLambda, "<LAMBDA>");
ExprLambda eLambda(posIdx, createSymbol("a"), &formals, &body);
Value vLambda;
vLambda.mkLambda(&env, &eLambda);
test(vLambda, "«lambda @ «none»:1:1»");
eLambda.setName(createSymbol("puppy"));
test(vLambda, "«lambda puppy @ «none»:1:1»");
}
TEST_F(ValuePrintingTests, vPrimOp)
{
Value vPrimOp;
PrimOp primOp{};
PrimOp primOp{
.name = "puppy"
};
vPrimOp.mkPrimOp(&primOp);
test(vPrimOp, "<PRIMOP>");
test(vPrimOp, "«primop puppy»");
}
TEST_F(ValuePrintingTests, vPrimOpApp)
{
Value vPrimOpApp;
vPrimOpApp.mkPrimOpApp(nullptr, nullptr);
PrimOp primOp{
.name = "puppy"
};
Value vPrimOp;
vPrimOp.mkPrimOp(&primOp);
test(vPrimOpApp, "<PRIMOP-APP>");
Value vPrimOpApp;
vPrimOpApp.mkPrimOpApp(&vPrimOp, nullptr);
test(vPrimOpApp, "«partially applied primop puppy»");
}
TEST_F(ValuePrintingTests, vExternal)
@ -176,9 +200,14 @@ TEST_F(ValuePrintingTests, depthAttrs)
Value vTwo;
vTwo.mkInt(2);
BindingsBuilder builderEmpty(state, state.allocBindings(0));
Value vAttrsEmpty;
vAttrsEmpty.mkAttrs(builderEmpty.finish());
BindingsBuilder builder(state, state.allocBindings(10));
builder.insert(state.symbols.create("one"), &vOne);
builder.insert(state.symbols.create("two"), &vTwo);
builder.insert(state.symbols.create("nested"), &vAttrsEmpty);
Value vAttrs;
vAttrs.mkAttrs(builder.finish());
@ -191,10 +220,10 @@ TEST_F(ValuePrintingTests, depthAttrs)
Value vNested;
vNested.mkAttrs(builder2.finish());
test(vNested, "{ nested = «too deep»; one = «too deep»; two = «too deep»; }", false, 1);
test(vNested, "{ nested = { one = «too deep»; two = «too deep»; }; one = 1; two = 2; }", false, 2);
test(vNested, "{ nested = { one = 1; two = 2; }; one = 1; two = 2; }", false, 3);
test(vNested, "{ nested = { one = 1; two = 2; }; one = 1; two = 2; }", false, 4);
test(vNested, "{ nested = { ... }; one = 1; two = 2; }", PrintOptions { .maxDepth = 1 });
test(vNested, "{ nested = { nested = { ... }; one = 1; two = 2; }; one = 1; two = 2; }", PrintOptions { .maxDepth = 2 });
test(vNested, "{ nested = { nested = { }; one = 1; two = 2; }; one = 1; two = 2; }", PrintOptions { .maxDepth = 3 });
test(vNested, "{ nested = { nested = { }; one = 1; two = 2; }; one = 1; two = 2; }", PrintOptions { .maxDepth = 4 });
}
TEST_F(ValuePrintingTests, depthList)
@ -227,11 +256,561 @@ TEST_F(ValuePrintingTests, depthList)
vList.bigList.elems[2] = &vNested;
vList.bigList.size = 3;
test(vList, "[ «too deep» «too deep» «too deep» ]", false, 1);
test(vList, "[ 1 2 { nested = «too deep»; one = «too deep»; two = «too deep»; } ]", false, 2);
test(vList, "[ 1 2 { nested = { one = «too deep»; two = «too deep»; }; one = 1; two = 2; } ]", false, 3);
test(vList, "[ 1 2 { nested = { one = 1; two = 2; }; one = 1; two = 2; } ]", false, 4);
test(vList, "[ 1 2 { nested = { one = 1; two = 2; }; one = 1; two = 2; } ]", false, 5);
test(vList, "[ 1 2 { ... } ]", PrintOptions { .maxDepth = 1 });
test(vList, "[ 1 2 { nested = { ... }; one = 1; two = 2; } ]", PrintOptions { .maxDepth = 2 });
test(vList, "[ 1 2 { nested = { one = 1; two = 2; }; one = 1; two = 2; } ]", PrintOptions { .maxDepth = 3 });
test(vList, "[ 1 2 { nested = { one = 1; two = 2; }; one = 1; two = 2; } ]", PrintOptions { .maxDepth = 4 });
test(vList, "[ 1 2 { nested = { one = 1; two = 2; }; one = 1; two = 2; } ]", PrintOptions { .maxDepth = 5 });
}
struct StringPrintingTests : LibExprTest
{
template<class... A>
void test(std::string_view literal, std::string_view expected, unsigned int maxLength, A... args)
{
Value v;
v.mkString(literal);
std::stringstream out;
printValue(state, out, v, PrintOptions {
.maxStringLength = maxLength
});
ASSERT_EQ(out.str(), expected);
}
};
TEST_F(StringPrintingTests, maxLengthTruncation)
{
test("abcdefghi", "\"abcdefghi\"", 10);
test("abcdefghij", "\"abcdefghij\"", 10);
test("abcdefghijk", "\"abcdefghij\" «1 byte elided»", 10);
test("abcdefghijkl", "\"abcdefghij\" «2 bytes elided»", 10);
test("abcdefghijklm", "\"abcdefghij\" «3 bytes elided»", 10);
}
// Check that printing an attrset shows 'important' attributes like `type`
// first, but only reorder the attrs when we have a maxAttrs budget.
TEST_F(ValuePrintingTests, attrsTypeFirst)
{
Value vType;
vType.mkString("puppy");
Value vApple;
vApple.mkString("apple");
BindingsBuilder builder(state, state.allocBindings(10));
builder.insert(state.symbols.create("type"), &vType);
builder.insert(state.symbols.create("apple"), &vApple);
Value vAttrs;
vAttrs.mkAttrs(builder.finish());
test(vAttrs,
"{ type = \"puppy\"; apple = \"apple\"; }",
PrintOptions {
.maxAttrs = 100
});
test(vAttrs,
"{ apple = \"apple\"; type = \"puppy\"; }",
PrintOptions { });
}
TEST_F(ValuePrintingTests, ansiColorsInt)
{
Value v;
v.mkInt(10);
test(v,
ANSI_CYAN "10" ANSI_NORMAL,
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsFloat)
{
Value v;
v.mkFloat(1.6);
test(v,
ANSI_CYAN "1.6" ANSI_NORMAL,
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsBool)
{
Value v;
v.mkBool(true);
test(v,
ANSI_CYAN "true" ANSI_NORMAL,
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsString)
{
Value v;
v.mkString("puppy");
test(v,
ANSI_MAGENTA "\"puppy\"" ANSI_NORMAL,
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsStringElided)
{
Value v;
v.mkString("puppy");
test(v,
ANSI_MAGENTA "\"pup\"" ANSI_FAINT " «2 bytes elided»" ANSI_NORMAL,
PrintOptions {
.ansiColors = true,
.maxStringLength = 3
});
}
TEST_F(ValuePrintingTests, ansiColorsPath)
{
Value v;
v.mkPath(state.rootPath(CanonPath("puppy")));
test(v,
ANSI_GREEN "/puppy" ANSI_NORMAL,
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsNull)
{
Value v;
v.mkNull();
test(v,
ANSI_CYAN "null" ANSI_NORMAL,
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsAttrs)
{
Value vOne;
vOne.mkInt(1);
Value vTwo;
vTwo.mkInt(2);
BindingsBuilder builder(state, state.allocBindings(10));
builder.insert(state.symbols.create("one"), &vOne);
builder.insert(state.symbols.create("two"), &vTwo);
Value vAttrs;
vAttrs.mkAttrs(builder.finish());
test(vAttrs,
"{ one = " ANSI_CYAN "1" ANSI_NORMAL "; two = " ANSI_CYAN "2" ANSI_NORMAL "; }",
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsDerivation)
{
Value vDerivation;
vDerivation.mkString("derivation");
BindingsBuilder builder(state, state.allocBindings(10));
builder.insert(state.sType, &vDerivation);
Value vAttrs;
vAttrs.mkAttrs(builder.finish());
test(vAttrs,
ANSI_GREEN "«derivation»" ANSI_NORMAL,
PrintOptions {
.ansiColors = true,
.force = true,
.derivationPaths = true
});
test(vAttrs,
"{ type = " ANSI_MAGENTA "\"derivation\"" ANSI_NORMAL "; }",
PrintOptions {
.ansiColors = true,
.force = true
});
}
TEST_F(ValuePrintingTests, ansiColorsError)
{
Value throw_ = state.getBuiltin("throw");
Value message;
message.mkString("uh oh!");
Value vError;
vError.mkApp(&throw_, &message);
test(vError,
ANSI_RED
"«"
ANSI_RED
"error:"
ANSI_NORMAL
"\n … while calling the '"
ANSI_MAGENTA
"throw"
ANSI_NORMAL
"' builtin\n\n "
ANSI_RED
"error:"
ANSI_NORMAL
" uh oh!»"
ANSI_NORMAL,
PrintOptions {
.ansiColors = true,
.force = true,
});
}
TEST_F(ValuePrintingTests, ansiColorsDerivationError)
{
Value throw_ = state.getBuiltin("throw");
Value message;
message.mkString("uh oh!");
Value vError;
vError.mkApp(&throw_, &message);
Value vDerivation;
vDerivation.mkString("derivation");
BindingsBuilder builder(state, state.allocBindings(10));
builder.insert(state.sType, &vDerivation);
builder.insert(state.sDrvPath, &vError);
Value vAttrs;
vAttrs.mkAttrs(builder.finish());
test(vAttrs,
"{ drvPath = "
ANSI_RED
"«"
ANSI_RED
"error:"
ANSI_NORMAL
"\n … while calling the '"
ANSI_MAGENTA
"throw"
ANSI_NORMAL
"' builtin\n\n "
ANSI_RED
"error:"
ANSI_NORMAL
" uh oh!»"
ANSI_NORMAL
"; type = "
ANSI_MAGENTA
"\"derivation\""
ANSI_NORMAL
"; }",
PrintOptions {
.ansiColors = true,
.force = true
});
test(vAttrs,
ANSI_RED
"«"
ANSI_RED
"error:"
ANSI_NORMAL
"\n … while calling the '"
ANSI_MAGENTA
"throw"
ANSI_NORMAL
"' builtin\n\n "
ANSI_RED
"error:"
ANSI_NORMAL
" uh oh!»"
ANSI_NORMAL,
PrintOptions {
.ansiColors = true,
.force = true,
.derivationPaths = true,
});
}
TEST_F(ValuePrintingTests, ansiColorsAssert)
{
ExprVar eFalse(state.symbols.create("false"));
eFalse.bindVars(state, state.staticBaseEnv);
ExprInt eInt(1);
ExprAssert expr(noPos, &eFalse, &eInt);
Value v;
state.mkThunk_(v, &expr);
test(v,
ANSI_RED "«" ANSI_RED "error:" ANSI_NORMAL " assertion '" ANSI_MAGENTA "false" ANSI_NORMAL "' failed»" ANSI_NORMAL,
PrintOptions {
.ansiColors = true,
.force = true
});
}
TEST_F(ValuePrintingTests, ansiColorsList)
{
Value vOne;
vOne.mkInt(1);
Value vTwo;
vTwo.mkInt(2);
Value vList;
state.mkList(vList, 5);
vList.bigList.elems[0] = &vOne;
vList.bigList.elems[1] = &vTwo;
vList.bigList.size = 3;
test(vList,
"[ " ANSI_CYAN "1" ANSI_NORMAL " " ANSI_CYAN "2" ANSI_NORMAL " " ANSI_MAGENTA "«nullptr»" ANSI_NORMAL " ]",
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsLambda)
{
Env env {
.up = nullptr,
.values = { }
};
PosTable::Origin origin((std::monostate()));
auto posIdx = state.positions.add(origin, 1, 1);
auto body = ExprInt(0);
auto formals = Formals {};
ExprLambda eLambda(posIdx, createSymbol("a"), &formals, &body);
Value vLambda;
vLambda.mkLambda(&env, &eLambda);
test(vLambda,
ANSI_BLUE "«lambda @ «none»:1:1»" ANSI_NORMAL,
PrintOptions {
.ansiColors = true,
.force = true
});
eLambda.setName(createSymbol("puppy"));
test(vLambda,
ANSI_BLUE "«lambda puppy @ «none»:1:1»" ANSI_NORMAL,
PrintOptions {
.ansiColors = true,
.force = true
});
}
TEST_F(ValuePrintingTests, ansiColorsPrimOp)
{
PrimOp primOp{
.name = "puppy"
};
Value v;
v.mkPrimOp(&primOp);
test(v,
ANSI_BLUE "«primop puppy»" ANSI_NORMAL,
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsPrimOpApp)
{
PrimOp primOp{
.name = "puppy"
};
Value vPrimOp;
vPrimOp.mkPrimOp(&primOp);
Value v;
v.mkPrimOpApp(&vPrimOp, nullptr);
test(v,
ANSI_BLUE "«partially applied primop puppy»" ANSI_NORMAL,
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsThunk)
{
Value v;
v.mkThunk(nullptr, nullptr);
test(v,
ANSI_MAGENTA "«thunk»" ANSI_NORMAL,
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsBlackhole)
{
Value v;
v.mkBlackhole();
test(v,
ANSI_RED "«potential infinite recursion»" ANSI_NORMAL,
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsAttrsRepeated)
{
BindingsBuilder emptyBuilder(state, state.allocBindings(1));
Value vEmpty;
vEmpty.mkAttrs(emptyBuilder.finish());
BindingsBuilder builder(state, state.allocBindings(10));
builder.insert(state.symbols.create("a"), &vEmpty);
builder.insert(state.symbols.create("b"), &vEmpty);
Value vAttrs;
vAttrs.mkAttrs(builder.finish());
test(vAttrs,
"{ a = { }; b = " ANSI_MAGENTA "«repeated»" ANSI_NORMAL "; }",
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, ansiColorsListRepeated)
{
BindingsBuilder emptyBuilder(state, state.allocBindings(1));
Value vEmpty;
vEmpty.mkAttrs(emptyBuilder.finish());
Value vList;
state.mkList(vList, 3);
vList.bigList.elems[0] = &vEmpty;
vList.bigList.elems[1] = &vEmpty;
vList.bigList.size = 2;
test(vList,
"[ { } " ANSI_MAGENTA "«repeated»" ANSI_NORMAL " ]",
PrintOptions {
.ansiColors = true
});
}
TEST_F(ValuePrintingTests, listRepeated)
{
BindingsBuilder emptyBuilder(state, state.allocBindings(1));
Value vEmpty;
vEmpty.mkAttrs(emptyBuilder.finish());
Value vList;
state.mkList(vList, 3);
vList.bigList.elems[0] = &vEmpty;
vList.bigList.elems[1] = &vEmpty;
vList.bigList.size = 2;
test(vList, "[ { } «repeated» ]", PrintOptions { });
test(vList,
"[ { } { } ]",
PrintOptions {
.trackRepeated = false
});
}
TEST_F(ValuePrintingTests, ansiColorsAttrsElided)
{
Value vOne;
vOne.mkInt(1);
Value vTwo;
vTwo.mkInt(2);
BindingsBuilder builder(state, state.allocBindings(10));
builder.insert(state.symbols.create("one"), &vOne);
builder.insert(state.symbols.create("two"), &vTwo);
Value vAttrs;
vAttrs.mkAttrs(builder.finish());
test(vAttrs,
"{ one = " ANSI_CYAN "1" ANSI_NORMAL "; " ANSI_FAINT " «1 attribute elided»" ANSI_NORMAL "}",
PrintOptions {
.ansiColors = true,
.maxAttrs = 1
});
Value vThree;
vThree.mkInt(3);
builder.insert(state.symbols.create("three"), &vThree);
vAttrs.mkAttrs(builder.finish());
test(vAttrs,
"{ one = " ANSI_CYAN "1" ANSI_NORMAL "; " ANSI_FAINT " «2 attributes elided»" ANSI_NORMAL "}",
PrintOptions {
.ansiColors = true,
.maxAttrs = 1
});
}
TEST_F(ValuePrintingTests, ansiColorsListElided)
{
BindingsBuilder emptyBuilder(state, state.allocBindings(1));
Value vOne;
vOne.mkInt(1);
Value vTwo;
vTwo.mkInt(2);
Value vList;
state.mkList(vList, 4);
vList.bigList.elems[0] = &vOne;
vList.bigList.elems[1] = &vTwo;
vList.bigList.size = 2;
test(vList,
"[ " ANSI_CYAN "1" ANSI_NORMAL " " ANSI_FAINT " «1 item elided»" ANSI_NORMAL "]",
PrintOptions {
.ansiColors = true,
.maxListItems = 1
});
Value vThree;
vThree.mkInt(3);
vList.bigList.elems[2] = &vThree;
vList.bigList.size = 3;
test(vList,
"[ " ANSI_CYAN "1" ANSI_NORMAL " " ANSI_FAINT " «2 items elided»" ANSI_NORMAL "]",
PrintOptions {
.ansiColors = true,
.maxListItems = 1
});
}
} // namespace nix