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Use C++11 Raw Strings for chaiscript prelude

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This commit is contained in:
Jason Turner 2012-06-28 21:24:51 -06:00
parent a3b50d4151
commit a6924bcc9e
5 changed files with 533 additions and 333 deletions
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2
CMakeLists.txt
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@ -91,7 +91,7 @@ endif()
include_directories(include)
set (Chai_INCLUDES include/chaiscript/chaiscript.hpp include/chaiscript/chaiscript_threading.hpp include/chaiscript/dispatchkit/bad_boxed_cast.hpp include/chaiscript/dispatchkit/bind_first.hpp include/chaiscript/dispatchkit/bootstrap.hpp include/chaiscript/dispatchkit/bootstrap_stl.hpp include/chaiscript/dispatchkit/boxed_cast.hpp include/chaiscript/dispatchkit/boxed_cast_helper.hpp include/chaiscript/dispatchkit/boxed_number.hpp include/chaiscript/dispatchkit/boxed_value.hpp include/chaiscript/dispatchkit/dispatchkit.hpp include/chaiscript/dispatchkit/dynamic_cast_conversion.hpp include/chaiscript/dispatchkit/dynamic_object.hpp include/chaiscript/dispatchkit/exception_specification.hpp include/chaiscript/dispatchkit/function_call.hpp include/chaiscript/dispatchkit/function_call_detail.hpp include/chaiscript/dispatchkit/handle_return.hpp include/chaiscript/dispatchkit/operators.hpp include/chaiscript/dispatchkit/proxy_constructors.hpp include/chaiscript/dispatchkit/proxy_functions.hpp include/chaiscript/dispatchkit/proxy_functions_detail.hpp include/chaiscript/dispatchkit/register_function.hpp include/chaiscript/dispatchkit/type_info.hpp include/chaiscript/language/chaiscript_algebraic.hpp include/chaiscript/language/chaiscript_common.hpp include/chaiscript/language/chaiscript_engine.hpp include/chaiscript/language/chaiscript_eval.hpp include/chaiscript/language/chaiscript_parser.hpp include/chaiscript/language/chaiscript_prelude.hpp include/chaiscript/language/chaiscript_prelude_docs.hpp include/chaiscript/utility/utility.hpp)
set (Chai_INCLUDES include/chaiscript/chaiscript.hpp include/chaiscript/chaiscript_threading.hpp include/chaiscript/dispatchkit/bad_boxed_cast.hpp include/chaiscript/dispatchkit/bind_first.hpp include/chaiscript/dispatchkit/bootstrap.hpp include/chaiscript/dispatchkit/bootstrap_stl.hpp include/chaiscript/dispatchkit/boxed_cast.hpp include/chaiscript/dispatchkit/boxed_cast_helper.hpp include/chaiscript/dispatchkit/boxed_number.hpp include/chaiscript/dispatchkit/boxed_value.hpp include/chaiscript/dispatchkit/dispatchkit.hpp include/chaiscript/dispatchkit/dynamic_cast_conversion.hpp include/chaiscript/dispatchkit/dynamic_object.hpp include/chaiscript/dispatchkit/exception_specification.hpp include/chaiscript/dispatchkit/function_call.hpp include/chaiscript/dispatchkit/function_call_detail.hpp include/chaiscript/dispatchkit/handle_return.hpp include/chaiscript/dispatchkit/operators.hpp include/chaiscript/dispatchkit/proxy_constructors.hpp include/chaiscript/dispatchkit/proxy_functions.hpp include/chaiscript/dispatchkit/proxy_functions_detail.hpp include/chaiscript/dispatchkit/register_function.hpp include/chaiscript/dispatchkit/type_info.hpp include/chaiscript/language/chaiscript_algebraic.hpp include/chaiscript/language/chaiscript_common.hpp include/chaiscript/language/chaiscript_engine.hpp include/chaiscript/language/chaiscript_eval.hpp include/chaiscript/language/chaiscript_parser.hpp include/chaiscript/language/chaiscript_prelude.chai include/chaiscript/language/chaiscript_prelude_docs.hpp include/chaiscript/utility/utility.hpp)
set_source_files_properties(${Chai_INCLUDES} PROPERTIES HEADER_FILE_ONLY TRUE)

4
include/chaiscript/language/chaiscript_engine.hpp
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@ -28,7 +28,7 @@
#endif
#include "chaiscript_prelude.hpp"
#include "chaiscript_prelude.chai"
#include "chaiscript_parser.hpp"
#include "../dispatchkit/exception_specification.hpp"
@ -351,7 +351,7 @@ namespace chaiscript
m_engine.add(fun(&ChaiScript::internal_eval, this), "eval");
m_engine.add(fun(&ChaiScript::internal_eval_ast, this), "eval");
do_eval(chaiscript_prelude, "standard prelude");
do_eval(ChaiScript_Prelude::chaiscript_prelude, "standard prelude");
}
/**

1
include/chaiscript/language/chaiscript_parser.hpp
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@ -12,7 +12,6 @@
#include <sstream>
#include <cstring>
#include "chaiscript_prelude.hpp"
#include "chaiscript_common.hpp"
namespace chaiscript

530
include/chaiscript/language/chaiscript_prelude.chai Normal file
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@ -0,0 +1,530 @@
// This file is distributed under the BSD License.
// See "license.txt" for details.
// Copyright 2009-2012, Jonathan Turner (jonathan@emptycrate.com)
// and Jason Turner (jason@emptycrate.com)
// http://www.chaiscript.com
#ifndef CHAISCRIPT_PRELUDE_HPP_
#define CHAISCRIPT_PRELUDE_HPP_
namespace chaiscript {
struct ChaiScript_Prelude {
constexpr static const char *chaiscript_prelude=R""(
def lt(l, r) {
if (call_exists(`<`, l, r)) {
l < r
} else {
type_name(l) < type_name(r)
}
}
def gt(l, r) {
if (call_exists(`>`, l, r)) {
l > r
} else {
type_name(l) > type_name(r)
}
}
def eq(l, r) {
if (call_exists(`==`, l, r)) {
l == r
} else {
false
}
}
def new(x) {
eval(type_name(x))();
}
def clone(x) : function_exists(type_name(x)) && call_exists(eval(type_name(x)), x)
{
eval(type_name(x))(x);
}
# to_string for Pair()
def to_string(x) : call_exists(first, x) && call_exists(second, x) {
"<" + x.first.to_string() + ", " + x.second.to_string() + ">";
}
# to_string for containers
def to_string(x) : call_exists(range, x) && !x.is_type("string"){
"[" + x.join(", ") + "]";
}
# Basic to_string function
def to_string(x) {
internal_to_string(x);
}
# Prints to console with no carriage return
def puts(x) {
print_string(x.to_string());
}
# Prints to console with carriage return
def print(x) {
println_string(x.to_string());
}
# Returns the maximum value of two numbers
def max(a, b) {
if (a>b) {
a
} else {
b
}
}
# Returns the minimum value of two numbers
def min(a, b)
{
if (a<b)
{
a
} else {
b
}
}
# Returns true if the value is odd
def odd(x) {
if (x % 2 == 1)
{
true
} else {
false
}
}
# Returns true if the value is even
def even(x)
{
if (x % 2 == 0)
{
true
} else {
false
}
}
# Pushes the second value onto the container first value while making a clone of the value
def push_back(container, x) : call_exists(push_back_ref, container, x)
{
container.push_back_ref(clone(x))
}
# Pushes the second value onto the front of the container first value while making a clone of the value
def push_front(container, x) : call_exists(push_front_ref, container, x)
{
container.push_front_ref(clone(x))
}
# Inserts the third value at the position of the second value into the container of the first
# while making a clone.
def insert_at(container, pos, x)
{
container.insert_ref_at(pos, clone(x));
}
# Returns the reverse of the given container
def reverse(container) {
auto retval = new(container);
auto r = range(container);
while (!r.empty()) {
retval.push_back(r.back());
r.pop_back();
}
retval;
}
# Return a range from a range
def range(r) : call_exists(empty, r) && call_exists(pop_front, r) && call_exists(pop_back, r) && call_exists(back, r) && call_exists(front, r)
{
return clone(r);
}
# The retro attribute that contains the underlying range
attr retro::m_range;
# Creates a retro from a retro by returning the original range
def retro(r) : call_exists(get_type_name, r) && get_type_name(r) == "retro"
{
clone(r.m_range)
}
# Creates a retro range from a range
def retro::retro(r) : call_exists(empty, r) && call_exists(pop_front, r) && call_exists(pop_back, r) && call_exists(back, r) && call_exists(front, r)
{
this.m_range = r;
}
# Returns the first value of a retro
def retro::front()
{
back(this.m_range)
}
# Returns the last value of a retro
def retro::back()
{
front(this.m_range)
}
# Moves the back iterator of a retro towards the front by one
def retro::pop_back()
{
pop_front(this.m_range)
}
# Moves the front iterator of a retro towards the back by one
def retro::pop_front()
{
pop_back(this.m_range)
}
# returns true if the retro is out of elements
def retro::empty()
{
empty(this.m_range);
}
# Performs the second value function over the container first value
def for_each(container, func) : call_exists(range, container) {
var t_range = range(container);
while (!t_range.empty()) {
func(t_range.front());
t_range.pop_front();
}
}
def back_inserter(container) {
bind(push_back, container, _);
}
def contains(container, item, compare_func) : call_exists(range, container) {
auto t_range = range(container);
while (!t_range.empty()) {
if ( compare_func(t_range.front(), item) ) {
return true;
}
t_range.pop_front();
}
return false;
}
def contains(container, item) {
return contains(container, item, eq)
}
def map(container, func, inserter) : call_exists(range, container) {
auto range = range(container);
while (!range.empty()) {
inserter(func(range.front()));
range.pop_front();
}
}
# Performs the second value function over the container first value. Creates a new container with the results
def map(container, func) {
auto retval = new(container);
map(container, func, back_inserter(retval));
retval;
}
# Performs the second value function over the container first value. Starts with initial and continues with each element.
def foldl(container, func, initial) : call_exists(range, container){
auto retval = initial;
auto range = range(container);
while (!range.empty()) {
retval = (func(range.front(), retval));
range.pop_front();
}
retval;
}
# Returns the sum of the elements of the given value
def sum(container) {
foldl(container, `+`, 0.0)
}
# Returns the product of the elements of the given value
def product(container) {
foldl(container, `*`, 1.0)
}
# Returns a new container with the elements of the first value concatenated with the elements of the second value
def concat(x, y) : call_exists(clone, x) {
auto retval = x;
auto inserter = back_inserter(retval);
auto range = range(y);
while (!range.empty()) {
inserter(range.front());
range.pop_front();
}
retval;
}
def take(container, num, inserter) : call_exists(range, container) {
auto r = range(container);
auto i = num;
while ((i > 0) && (!r.empty())) {
inserter(r.front());
r.pop_front();
--i;
}
}
# Returns a new container with the given number of elements taken from the container
def take(container, num) {
auto retval = new(container);
take(container, num, back_inserter(retval));
retval;
}
def take_while(container, f, inserter) : call_exists(range, container) {
auto r = range(container);
while ((!r.empty()) && f(r.front())) {
inserter(r.front());
r.pop_front();
}
}
# Returns a new container with the given elements match the second value function
def take_while(container, f) {
auto retval = new(container);
take_while(container, f, back_inserter(retval));
retval;
}
def drop(container, num, inserter) : call_exists(range, container) {
auto r = range(container);
auto i = num;
while ((i > 0) && (!r.empty())) {
r.pop_front();
--i;
}
while (!r.empty()) {
inserter(r.front());
r.pop_front();
}
}
# Returns a new container with the given number of elements dropped from the given container
def drop(container, num) {
auto retval = new(container);
drop(container, num, back_inserter(retval));
retval;
}
def drop_while(container, f, inserter) : call_exists(range, container) {
auto r = range(container);
while ((!r.empty())&& f(r.front())) {
r.pop_front();
}
while (!r.empty()) {
inserter(r.front());
r.pop_front();
}
}
# Returns a new container with the given elements dropped that match the second value function
def drop_while(container, f) {
auto retval = new(container);
drop_while(container, f, back_inserter(retval));
retval;
}
# Applies the second value function to the container. Starts with the first two elements. Expects at least 2 elements.
def reduce(container, func) : container.size() >= 2 && call_exists(range, container) {
auto r = range(container);
auto retval = r.front();
r.pop_front();
retval = func(retval, r.front());
r.pop_front();
while (!r.empty()) {
retval = func(retval, r.front());
r.pop_front();
}
retval;
}
# Returns a string of the elements in container delimited by the second value string
def join(container, delim) {
auto retval = "";
auto range = range(container);
if (!range.empty()) {
retval += to_string(range.front());
range.pop_front();
while (!range.empty()) {
retval += delim;
retval += to_string(range.front());
range.pop_front();
}
}
retval;
}
def filter(container, f, inserter) : call_exists(range, container) {
auto r = range(container);
while (!r.empty()) {
if (f(r.front())) {
inserter(r.front());
}
r.pop_front();
}
}
# Returns a new Vector which match the second value function
def filter(container, f) {
auto retval = new(container);
filter(container, f, back_inserter(retval));
retval;
}
def generate_range(x, y, inserter) {
auto i = x;
while (i <= y) {
inserter(i);
++i;
}
}
# Returns a new Vector which represents the range from the first value to the second value
def generate_range(x, y) {
auto retval = Vector();
generate_range(x,y,back_inserter(retval));
retval;
}
# Returns a new Vector with the first value to the second value as its elements
def collate(x, y) {
return [x, y];
}
def zip_with(f, x, y, inserter) : call_exists(range, x) && call_exists(range, y) {
auto r_x = range(x);
auto r_y = range(y);
while (!r_x.empty() && !r_y.empty()) {
inserter(f(r_x.front(), r_y.front()));
r_x.pop_front();
r_y.pop_front();
}
}
# Returns a new Vector which joins matching elements of the second and third value with the first value function
def zip_with(f, x, y) {
auto retval = Vector();
zip_with(f,x,y,back_inserter(retval));
retval;
}
# Returns a new Vector which joins matching elements of the first and second
def zip(x, y) {
zip_with(collate, x, y);
}
# Returns the position of the second value string in the first value string
def string::find(substr) : is_type(substr, "string") {
int(find(this, substr, 0));
}
# Returns the position of last match of the second value string in the first value string
def string::rfind(substr) : is_type(substr, "string") {
int(rfind(this, substr, -1));
}
# Returns the position of the first match of elements in the second value string in the first value string
def string::find_first_of(list) : is_type(list, "string") {
int(find_first_of(this, list, 0));
}
# Returns the position of the last match of elements in the second value string in the first value string
def string::find_last_of(list) : is_type(list, "string") {
int(find_last_of(this, list, -1));
}
# Returns the position of the first non-matching element in the second value string in the first value string
def string::find_first_not_of(list) : is_type(list, "string") {
int(find_first_not_of(this, list, 0));
}
# Returns the position of the last non-matching element in the second value string in the first value string
def string::find_last_not_of(list) : is_type(list, "string") {
int(find_last_not_of(this, list, -1));
}
def string::ltrim() {
drop_while(this, fun(x) { x == ' ' || x == '\t' || x == '\r' || x == '\n'});
}
def string::rtrim() {
reverse(drop_while(reverse(this), fun(x) { x == ' ' || x == '\t' || x == '\r' || x == '\n'}));
}
def string::trim() {
ltrim(rtrim(this));
}
def find(container, value, compare_func) : call_exists(range, container) && is_type(compare_func, "Function") {
auto range = range(container);
while (!range.empty()) {
if (compare_func(range.front(), value)) {
return range;
} else {
range.pop_front();
}
}
return range;
}
def find(container, value) {
return find(container, value, eq)
}
)"";
};
}
#endif /* CHAISCRIPT_PRELUDE_HPP_ */

329
include/chaiscript/language/chaiscript_prelude.hpp
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@ -1,329 +0,0 @@
// This file is distributed under the BSD License.
// See "license.txt" for details.
// Copyright 2009-2012, Jonathan Turner (jonathan@emptycrate.com)
// and Jason Turner (jason@emptycrate.com)
// http://www.chaiscript.com
#ifndef CHAISCRIPT_PRELUDE_HPP_
#define CHAISCRIPT_PRELUDE_HPP_
//Note, the expression "[x,y]" in "collate" is parsed as two separate expressions
//by C++, so CODE_STRING, takes two expressions and adds in the missing comma
#define CODE_STRING(x, y) #x ", " #y
#define chaiscript_prelude CODE_STRING(\
def lt(l, r) { if (call_exists(`<`, l, r)) { l < r } else { type_name(l) < type_name(r) } } \n\
def gt(l, r) { if (call_exists(`>`, l, r)) { l > r } else { type_name(l) > type_name(r) } } \n\
def eq(l, r) { if (call_exists(`==`, l, r)) { l == r } else { false } } \n\
def new(x) { eval(type_name(x))(); } \n\
def clone(x) : function_exists(type_name(x)) && call_exists(eval(type_name(x)), x) { eval(type_name(x))(x); } \n\
# to_string for Pair()\n\
def to_string(x) : call_exists(first, x) && call_exists(second, x) { \n\
"<" + x.first.to_string() + ", " + x.second.to_string() + ">"; \n\
}\n\
# to_string for containers\n\
def to_string(x) : call_exists(range, x) && !x.is_type("string"){ \n\
"[" + x.join(", ") + "]"; \n\
}\n\
# Basic to_string function\n\
def to_string(x) { \n\
internal_to_string(x); \n\
}\n\
# Prints to console with no carriage return\n\
def puts(x) { \n\
print_string(x.to_string()); \n\
} \n\
# Prints to console with carriage return\n\
def print(x) { \n\
println_string(x.to_string()); \n\
} \n\
# Returns the maximum value of two numbers\n\
def max(a, b) { if (a>b) { a } else { b } } \n\
# Returns the minimum value of two numbers\n\
def min(a, b) { if (a<b) { a } else { b } } \n\
# Returns true if the value is odd\n\
def odd(x) { if (x % 2 == 1) { true } else { false } } \n\
# Returns true if the value is even\n\
def even(x) { if (x % 2 == 0) { true } else { false } } \n\
# Pushes the second value onto the container first value while making a clone of the value\n\
def push_back(container, x) : call_exists(push_back_ref, container, x) { container.push_back_ref(clone(x)) } \n\
# Pushes the second value onto the front of the container first value while making a clone of the value\n\
def push_front(container, x) : call_exists(push_front_ref, container, x) { container.push_front_ref(clone(x)) } \n\
# Inserts the third value at the position of the second value into the container of the first\n\
# while making a clone. \n\
def insert_at(container, pos, x) { container.insert_ref_at(pos, clone(x)); } \n\
# Returns the reverse of the given container\n\
def reverse(container) {\n\
auto retval = new(container); \n\
auto r = range(container); \n\
while (!r.empty()) { \n\
retval.push_back(r.back()); \n\
r.pop_back(); \n\
} \n\
retval; \n\
} \n\
# Return a range from a range \n\
def range(r) : call_exists(empty, r) && call_exists(pop_front, r) && call_exists(pop_back, r) && call_exists(back, r) && call_exists(front, r) { return clone(r); }\n\
# The retro attribute that contains the underlying range \n\
attr retro::m_range; \n\
# Creates a retro from a retro by returning the original range\n\
def retro(r) : call_exists(get_type_name, r) && get_type_name(r) == "retro" { clone(r.m_range) }\n\
# Creates a retro range from a range\n\
def retro::retro(r) : call_exists(empty, r) && call_exists(pop_front, r) && call_exists(pop_back, r) && call_exists(back, r) && call_exists(front, r) { this.m_range = r; }\n\
# Returns the first value of a retro\n\
def retro::front() { back(this.m_range) }\n\
# Returns the last value of a retro\n\
def retro::back() { front(this.m_range) }\n\
# Moves the back iterator of a retro towards the front by one \n\
def retro::pop_back() { pop_front(this.m_range) }\n\
# Moves the front iterator of a retro towards the back by one \n\
def retro::pop_front() { pop_back(this.m_range) } \n\
# returns true if the retro is out of elements \n\
def retro::empty() { empty(this.m_range); } \n\
# Performs the second value function over the container first value\n\
def for_each(container, func) : call_exists(range, container) { \n\
auto t_range = range(container); \n\
while (!t_range.empty()) { \n\
func(t_range.front()); \n\
t_range.pop_front(); \n\
} \n\
} \n\
def back_inserter(container) { \n\
bind(push_back, container, _); \n\
}\n\
\n\
def contains(container, item, compare_func) : call_exists(range, container) { \n\
auto t_range = range(container); \n\
while (!t_range.empty()) { \n\
if ( compare_func(t_range.front(), item) ) { return true; } \n\
t_range.pop_front(); \n\
} \n\
return false; \n\
} \n\
def contains(container, item) { return contains(container, item, eq) } \n\
def map(container, func, inserter) : call_exists(range, container) { \n\
auto range = range(container); \n\
while (!range.empty()) { \n\
inserter(func(range.front())); \n\
range.pop_front(); \n\
} \n\
} \n\
# Performs the second value function over the container first value. Creates a new container with the results\n\
def map(container, func) { \n\
auto retval = new(container); \n\
map(container, func, back_inserter(retval));\n\
retval;\n\
}\n\
# Performs the second value function over the container first value. Starts with initial and continues with each element.\n\
def foldl(container, func, initial) : call_exists(range, container){ \n\
auto retval = initial; \n\
auto range = range(container); \n\
while (!range.empty()) { \n\
retval = (func(range.front(), retval)); \n\
range.pop_front(); \n\
} \n\
retval; \n\
} \n\
# Returns the sum of the elements of the given value\n\
def sum(container) { foldl(container, `+`, 0.0) } \n\
# Returns the product of the elements of the given value\n\
def product(container) { foldl(container, `*`, 1.0) } \n\
# Returns a new container with the elements of the first value concatenated with the elements of the second value\n\
def concat(x, y) : call_exists(clone, x) { \n\
auto retval = x; \n\
auto inserter = back_inserter(retval); \n\
auto range = range(y); \n\
while (!range.empty()) { \n\
inserter(range.front()); \n\
range.pop_front(); \n\
} \n\
retval; \n\
} \n\
def take(container, num, inserter) : call_exists(range, container) { \n\
auto r = range(container); \n\
auto i = num; \n\
while ((i > 0) && (!r.empty())) { \n\
inserter(r.front()); \n\
r.pop_front(); \n\
--i; \n\
} \n\
} \n\
# Returns a new container with the given number of elements taken from the container\n\
def take(container, num) {\n\
auto retval = new(container); \n\
take(container, num, back_inserter(retval)); \n\
retval; \n\
}\n\
def take_while(container, f, inserter) : call_exists(range, container) { \n\
auto r = range(container); \n\
while ((!r.empty()) && f(r.front())) { \n\
inserter(r.front()); \n\
r.pop_front(); \n\
} \n\
} \n\
# Returns a new container with the given elements match the second value function\n\
def take_while(container, f) {\n\
auto retval = new(container); \n\
take_while(container, f, back_inserter(retval)); \n\
retval;\n\
}\n\
def drop(container, num, inserter) : call_exists(range, container) { \n\
auto r = range(container); \n\
auto i = num; \n\
while ((i > 0) && (!r.empty())) { \n\
r.pop_front(); \n\
--i; \n\
} \n\
while (!r.empty()) { \n\
inserter(r.front()); \n\
r.pop_front(); \n\
} \n\
} \n\
# Returns a new container with the given number of elements dropped from the given container \n\
def drop(container, num) {\n\
auto retval = new(container); \n\
drop(container, num, back_inserter(retval)); \n\
retval; \n\
}\n\
def drop_while(container, f, inserter) : call_exists(range, container) { \n\
auto r = range(container); \n\
while ((!r.empty())&& f(r.front())) { \n\
r.pop_front(); \n\
} \n\
while (!r.empty()) { \n\
inserter(r.front()); \n\
r.pop_front(); \n\
} \n\
} \n\
# Returns a new container with the given elements dropped that match the second value function\n\
def drop_while(container, f) {\n\
auto retval = new(container); \n\
drop_while(container, f, back_inserter(retval)); \n\
retval; \n\
}\n\
# Applies the second value function to the container. Starts with the first two elements. Expects at least 2 elements.\n\
def reduce(container, func) : container.size() >= 2 && call_exists(range, container) { \n\
auto r = range(container); \n\
auto retval = r.front(); \n\
r.pop_front(); \n\
retval = func(retval, r.front()); \n\
r.pop_front(); \n\
while (!r.empty()) { \n\
retval = func(retval, r.front()); \n\
r.pop_front(); \n\
} \n\
retval; \n\
} \n\
# Returns a string of the elements in container delimited by the second value string\n\
def join(container, delim) { \n\
auto retval = ""; \n\
auto range = range(container); \n\
if (!range.empty()) { \n\
retval += to_string(range.front()); \n\
range.pop_front(); \n\
while (!range.empty()) { \n\
retval += delim; \n\
retval += to_string(range.front()); \n\
range.pop_front(); \n\
} \n\
} \n\
retval; \n\
} \n\
def filter(container, f, inserter) : call_exists(range, container) { \n\
auto r = range(container); \n\
while (!r.empty()) { \n\
if (f(r.front())) { \n\
inserter(r.front()); \n\
} \n\
r.pop_front(); \n\
} \n\
} \n\
# Returns a new Vector which match the second value function\n\
def filter(container, f) { \n\
auto retval = new(container); \n\
filter(container, f, back_inserter(retval));\n\
retval;\n\
}\n\
def generate_range(x, y, inserter) { \n\
auto i = x; \n\
while (i <= y) { \n\
inserter(i); \n\
++i; \n\
} \n\
} \n\
# Returns a new Vector which represents the range from the first value to the second value\n\
def generate_range(x, y) { \n\
auto retval = Vector(); \n\
generate_range(x,y,back_inserter(retval)); \n\
retval; \n\
}\n\
# Returns a new Vector with the first value to the second value as its elements\n\
def collate(x, y) { \n\
return [x, y]; \n\
} \n\
def zip_with(f, x, y, inserter) : call_exists(range, x) && call_exists(range, y) { \n\
auto r_x = range(x); \n\
auto r_y = range(y); \n\
while (!r_x.empty() && !r_y.empty()) { \n\
inserter(f(r_x.front(), r_y.front())); \n\
r_x.pop_front(); \n\
r_y.pop_front(); \n\
} \n\
} \n\
# Returns a new Vector which joins matching elements of the second and third value with the first value function\n\
def zip_with(f, x, y) { \n\
auto retval = Vector(); \n\
zip_with(f,x,y,back_inserter(retval)); \n\
retval;\n\
}\n\
# Returns a new Vector which joins matching elements of the first and second\n\
def zip(x, y) { \n\
zip_with(collate, x, y); \n\
}\n\
# Returns the position of the second value string in the first value string\n\
def string::find(substr) : is_type(substr, "string") { \n\
int(find(this, substr, 0)); \n\
} \n\
# Returns the position of last match of the second value string in the first value string\n\
def string::rfind(substr) : is_type(substr, "string") { \n\
int(rfind(this, substr, -1)); \n\
} \n\
# Returns the position of the first match of elements in the second value string in the first value string\n\
def string::find_first_of(list) : is_type(list, "string") { \n\
int(find_first_of(this, list, 0)); \n\
} \n\
# Returns the position of the last match of elements in the second value string in the first value string\n\
def string::find_last_of(list) : is_type(list, "string") { \n\
int(find_last_of(this, list, -1)); \n\
} \n\
# Returns the position of the first non-matching element in the second value string in the first value string\n\
def string::find_first_not_of(list) : is_type(list, "string") { \n\
int(find_first_not_of(this, list, 0)); \n\
} \n\
# Returns the position of the last non-matching element in the second value string in the first value string\n\
def string::find_last_not_of(list) : is_type(list, "string") { \n\
int(find_last_not_of(this, list, -1)); \n\
} \n\
def string::ltrim() { \n\
drop_while(this, fun(x) { x == ' ' || x == '\t' || x == '\r' || x == '\n'}); \n\
} \n\
def string::rtrim() { \n\
reverse(drop_while(reverse(this), fun(x) { x == ' ' || x == '\t' || x == '\r' || x == '\n'})); \n\
} \n\
def string::trim() { \n\
ltrim(rtrim(this)); \n\
} \n\
def find(container, value, compare_func) : call_exists(range, container) && is_type(compare_func, "Function") { \n\
auto range = range(container); \n\
while (!range.empty()) { \n\
if (compare_func(range.front(), value)) { \n\
return range; \n\
} else { \n\
range.pop_front(); \n\
} \n\
} \n\
return range; \n\
} \n\
def find(container, value) { return find(container, value, eq) } \
)
#endif /* CHAISCRIPT_PRELUDE_HPP_ */