builtin.c

#include <string.h>
#include "builtin.h"
#include "bytecode.h"
#include "compile.h"
#include "parser.h"
#include "locfile.h"
#include "jv_aux.h"


typedef jv (*func_1)(jv);
typedef jv (*func_2)(jv,jv);
typedef jv (*func_3)(jv,jv,jv);
typedef jv (*func_4)(jv,jv,jv,jv);
typedef jv (*func_5)(jv,jv,jv,jv,jv);
jv cfunction_invoke(struct cfunction* function, jv input[]) {
  switch (function->nargs) {
  case 1: return ((func_1)function->fptr)(input[0]);
  case 2: return ((func_2)function->fptr)(input[0], input[1]);
  case 3: return ((func_3)function->fptr)(input[0], input[1], input[2]);
  case 4: return ((func_4)function->fptr)(input[0], input[1], input[2], input[3]);
  case 5: return ((func_5)function->fptr)(input[0], input[1], input[2], input[3], input[4]);
  default: return jv_invalid_with_msg(jv_string("Function takes too many arguments"));
  }
}

static jv type_error(jv bad, const char* msg) {
  jv err = jv_invalid_with_msg(jv_string_fmt("%s %s",
                                             jv_kind_name(jv_get_kind(bad)),
                                             msg));
  jv_free(bad);
  return err;
}

static jv type_error2(jv bad1, jv bad2, const char* msg) {
  jv err = jv_invalid_with_msg(jv_string_fmt("%s and %s %s",
                                             jv_kind_name(jv_get_kind(bad1)),
                                             jv_kind_name(jv_get_kind(bad2)),
                                             msg));
  jv_free(bad1);
  jv_free(bad2);
  return err;
}


static jv f_plus(jv input, jv a, jv b) {
  jv_free(input);
  if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) {
    return jv_number(jv_number_value(a) + 
                     jv_number_value(b));
  } else if (jv_get_kind(a) == JV_KIND_STRING && jv_get_kind(b) == JV_KIND_STRING) {
    return jv_string_concat(a, b);
  } else if (jv_get_kind(a) == JV_KIND_ARRAY && jv_get_kind(b) == JV_KIND_ARRAY) {
    return jv_array_concat(a, b);
  } else if (jv_get_kind(a) == JV_KIND_OBJECT && jv_get_kind(b) == JV_KIND_OBJECT) {
    return jv_object_merge(a, b);
  } else {
    return type_error2(a, b, "cannot be added");
  }
}

static jv f_minus(jv input, jv a, jv b) {
  jv_free(input);
  if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) {
    return jv_number(jv_number_value(a) - jv_number_value(b));
  } else if (jv_get_kind(a) == JV_KIND_ARRAY && jv_get_kind(b) == JV_KIND_ARRAY) {
    jv out = jv_array();
    for (int i=0; i<jv_array_length(jv_copy(a)); i++) {
      jv x = jv_array_get(jv_copy(a), i);
      int include = 1;
      for (int j=0; j<jv_array_length(jv_copy(b)); j++) {
        if (jv_equal(jv_copy(x), jv_array_get(jv_copy(b), j))) {
          include = 0;
          break;
        }
      }
      if (include)
        out = jv_array_append(out, jv_copy(x));
      jv_free(x);
    }
    jv_free(a);
    jv_free(b);
    return out;
  } else {
    return type_error2(a, b, "cannot be subtracted");
  }
}

static jv f_multiply(jv input, jv a, jv b) {
  jv_free(input);
  if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) {
    return jv_number(jv_number_value(a) * jv_number_value(b));
  } else {
    return type_error2(a, b, "cannot be multiplied");
  }  
}

static jv f_divide(jv input, jv a, jv b) {
  jv_free(input);
  if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) {
    return jv_number(jv_number_value(a) / jv_number_value(b));
  } else {
    return type_error2(a, b, "cannot be divided");
  }  
}

static jv f_add(jv array) {
  if (jv_get_kind(array) != JV_KIND_ARRAY) {
    return type_error(array, "cannot have its elements added");
  } else if (jv_array_length(jv_copy(array)) == 0) {
    jv_free(array);
    return jv_null();
  } else {
    jv sum = jv_array_get(jv_copy(array), 0);
    for (int i = 1; i < jv_array_length(jv_copy(array)); i++) {
      sum = f_plus(jv_null(), sum, jv_array_get(jv_copy(array), i));
    }
    jv_free(array);
    return sum;
  }
}

static jv f_equal(jv input, jv a, jv b) {
  jv_free(input);
  return jv_bool(jv_equal(a, b));
}

static jv f_notequal(jv input, jv a, jv b) {
  jv_free(input);
  return jv_bool(!jv_equal(a, b));
}

enum cmp_op {
  CMP_OP_LESS,
  CMP_OP_GREATER,
  CMP_OP_LESSEQ,
  CMP_OP_GREATEREQ
};

static jv order_cmp(jv input, jv a, jv b, enum cmp_op op) {
  jv_free(input);
  int r = jv_cmp(a, b);
  return jv_bool((op == CMP_OP_LESS && r < 0) ||
                 (op == CMP_OP_LESSEQ && r <= 0) ||
                 (op == CMP_OP_GREATEREQ && r >= 0) ||
                 (op == CMP_OP_GREATER && r > 0));
}

static jv f_less(jv input, jv a, jv b) {
  return order_cmp(input, a, b, CMP_OP_LESS);
}

static jv f_greater(jv input, jv a, jv b) {
  return order_cmp(input, a, b, CMP_OP_GREATER);
}

static jv f_lesseq(jv input, jv a, jv b) {
  return order_cmp(input, a, b, CMP_OP_LESSEQ);
}

static jv f_greatereq(jv input, jv a, jv b) {
  return order_cmp(input, a, b, CMP_OP_GREATEREQ);
}

static jv f_contains(jv input, jv a, jv b) {
  jv_free(input);
  jv_kind akind = jv_get_kind(a);

  if (akind == jv_get_kind(b)) {
    return jv_bool(jv_contains(a, b));
  } else {
    return type_error2(a, b, "cannot have their containment checked");
  }
}

static jv f_tonumber(jv input) {
  if (jv_get_kind(input) == JV_KIND_NUMBER) {
    return input;
  }
  if (jv_get_kind(input) == JV_KIND_STRING) {
    jv parsed = jv_parse(jv_string_value(input));
    if (!jv_is_valid(parsed) || jv_get_kind(parsed) == JV_KIND_NUMBER) {
      jv_free(input);
      return parsed;
    }
  }
  return type_error(input, "cannot be parsed as a number");
}

static jv f_length(jv input) {
  if (jv_get_kind(input) == JV_KIND_ARRAY) {
    return jv_number(jv_array_length(input));
  } else if (jv_get_kind(input) == JV_KIND_OBJECT) {
    return jv_number(jv_object_length(input));
  } else if (jv_get_kind(input) == JV_KIND_STRING) {
    return jv_number(jv_string_length(input));
  } else {
    return type_error(input, "has no length");
  }
}

static jv f_tostring(jv input) {
  if (jv_get_kind(input) == JV_KIND_STRING) {
    return input;
  } else {
    return jv_dump_string(input, 0);
  }
}

static jv f_keys(jv input) {
  if (jv_get_kind(input) == JV_KIND_OBJECT || jv_get_kind(input) == JV_KIND_ARRAY) {
    return jv_keys(input);
  } else {
    return type_error(input, "has no keys");
  }
}

static jv f_sort(jv input){
  if (jv_get_kind(input) == JV_KIND_ARRAY) {
    return jv_sort(input, jv_copy(input));
  } else {
    return type_error(input, "cannot be sorted, as it is not an array");
  }
}

static jv f_type(jv input) {
  jv out = jv_string(jv_kind_name(jv_get_kind(input)));
  jv_free(input);
  return out;
}

static struct cfunction function_list[] = {
  {(cfunction_ptr)f_plus, "_plus", 3},
  {(cfunction_ptr)f_minus, "_minus", 3},
  {(cfunction_ptr)f_multiply, "_multiply", 3},
  {(cfunction_ptr)f_divide, "_divide", 3},
  {(cfunction_ptr)f_tonumber, "tonumber", 1},
  {(cfunction_ptr)f_tostring, "tostring", 1},
  {(cfunction_ptr)f_keys, "keys", 1},
  {(cfunction_ptr)f_equal, "_equal", 3},
  {(cfunction_ptr)f_notequal, "_notequal", 3},
  {(cfunction_ptr)f_less, "_less", 3},
  {(cfunction_ptr)f_greater, "_greater", 3},
  {(cfunction_ptr)f_lesseq, "_lesseq", 3},
  {(cfunction_ptr)f_greatereq, "_greatereq", 3},
  {(cfunction_ptr)f_contains, "_contains", 3},
  {(cfunction_ptr)f_length, "length", 1},
  {(cfunction_ptr)f_type, "type", 1},
  {(cfunction_ptr)f_add, "add", 1},
  {(cfunction_ptr)f_sort, "sort", 1},
};

static struct symbol_table cbuiltins = {function_list, sizeof(function_list)/sizeof(function_list[0])};

typedef block (*bytecoded_builtin)();
struct bytecoded_builtin { const char* name; block code; };
static block bind_bytecoded_builtins(block b) {
  struct bytecoded_builtin builtin_defs[] = {
    {"empty", gen_op_simple(BACKTRACK)},
    {"false", gen_op_const(LOADK, jv_false())},
    {"true", gen_op_const(LOADK, jv_true())},
    {"null", gen_op_const(LOADK, jv_null())},
    {"not", gen_condbranch(gen_op_const(LOADK, jv_false()),
                           gen_op_const(LOADK, jv_true()))}
  };
  block builtins = gen_noop();
  for (unsigned i=0; i<sizeof(builtin_defs)/sizeof(builtin_defs[0]); i++) {
    builtins = BLOCK(builtins, gen_function(builtin_defs[i].name, builtin_defs[i].code));
  }
  return block_bind(builtins, b, OP_IS_CALL_PSEUDO);
}

static const char* jq_builtins[] = {
  "def map(f): [.[] | f];",
  "def select(f): if f then . else empty end;",
};


block builtins_bind(block b) {
  for (int i=(int)(sizeof(jq_builtins)/sizeof(jq_builtins[0]))-1; i>=0; i--) {
    struct locfile src;
    locfile_init(&src, jq_builtins[i], strlen(jq_builtins[i]));
    block funcs;
    int nerrors = jq_parse_library(&src, &funcs);
    assert(!nerrors);
    b = block_bind(funcs, b, OP_IS_CALL_PSEUDO);
    locfile_free(&src);
  }
  b = bind_bytecoded_builtins(b);
  return gen_cbinding(&cbuiltins, b);
}
Builtin functions defined in jq. 2012-09-18 10:17:38 +01:00			`#include <string.h>`
Most of a C implementation of jq 2012-08-16 01:00:30 +01:00			`#include "builtin.h"`
Move all the includes one place to the left 2012-12-02 21:25:54 +00:00			`#include "bytecode.h"`
Redefine true and false. Define empty, distict from null. This might be the most philosophical commit. I shall ponder it. true, false, null, empty now defined as bytecoded builtins rather than calls out to C functions. 2012-09-17 20:59:34 +01:00			`#include "compile.h"`
Builtin functions defined in jq. 2012-09-18 10:17:38 +01:00			`#include "parser.h"`
			`#include "locfile.h"`
Sort function and more general comparison operators. 2012-11-30 20:27:16 +00:00			`#include "jv_aux.h"`
Builtin functions defined in jq. 2012-09-18 10:17:38 +01:00
an addition operator, of sorts 2012-08-16 01:16:08 +01:00
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`typedef jv (*func_1)(jv);`
			`typedef jv (*func_2)(jv,jv);`
			`typedef jv (*func_3)(jv,jv,jv);`
			`typedef jv (*func_4)(jv,jv,jv,jv);`
			`typedef jv (*func_5)(jv,jv,jv,jv,jv);`
			`jv cfunction_invoke(struct cfunction* function, jv input[]) {`
			`switch (function->nargs) {`
			`case 1: return ((func_1)function->fptr)(input[0]);`
			`case 2: return ((func_2)function->fptr)(input[0], input[1]);`
			`case 3: return ((func_3)function->fptr)(input[0], input[1], input[2]);`
			`case 4: return ((func_4)function->fptr)(input[0], input[1], input[2], input[3]);`
			`case 5: return ((func_5)function->fptr)(input[0], input[1], input[2], input[3], input[4]);`
			`default: return jv_invalid_with_msg(jv_string("Function takes too many arguments"));`
			`}`
			`}`

			`static jv type_error(jv bad, const char* msg) {`
			`jv err = jv_invalid_with_msg(jv_string_fmt("%s %s",`
			`jv_kind_name(jv_get_kind(bad)),`
			`msg));`
			`jv_free(bad);`
			`return err;`
			`}`

			`static jv type_error2(jv bad1, jv bad2, const char* msg) {`
			`jv err = jv_invalid_with_msg(jv_string_fmt("%s and %s %s",`
			`jv_kind_name(jv_get_kind(bad1)),`
			`jv_kind_name(jv_get_kind(bad2)),`
			`msg));`
			`jv_free(bad1);`
			`jv_free(bad2);`
			`return err;`
			`}`


			`static jv f_plus(jv input, jv a, jv b) {`
			`jv_free(input);`
Move from Jansson to JV - everything but the interpreter loop Passes valgrind --leak-check=full. 2012-09-02 16:31:59 +01:00			`if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return jv_number(jv_number_value(a) +`
			`jv_number_value(b));`
String concatenation. 2012-09-10 16:16:39 +01:00			`} else if (jv_get_kind(a) == JV_KIND_STRING && jv_get_kind(b) == JV_KIND_STRING) {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return jv_string_concat(a, b);`
Move from Jansson to JV - everything but the interpreter loop Passes valgrind --leak-check=full. 2012-09-02 16:31:59 +01:00			`} else if (jv_get_kind(a) == JV_KIND_ARRAY && jv_get_kind(b) == JV_KIND_ARRAY) {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return jv_array_concat(a, b);`
Make the '+' operator merge objects. 2012-09-09 19:17:07 +01:00			`} else if (jv_get_kind(a) == JV_KIND_OBJECT && jv_get_kind(b) == JV_KIND_OBJECT) {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return jv_object_merge(a, b);`
an addition operator, of sorts 2012-08-16 01:16:08 +01:00			`} else {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return type_error2(a, b, "cannot be added");`
an addition operator, of sorts 2012-08-16 01:16:08 +01:00			`}`
			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_minus(jv input, jv a, jv b) {`
			`jv_free(input);`
Subtraction - as expected for numbers, ruby-style set diff for arrays. 2012-09-10 16:49:25 +01:00			`if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return jv_number(jv_number_value(a) - jv_number_value(b));`
Subtraction - as expected for numbers, ruby-style set diff for arrays. 2012-09-10 16:49:25 +01:00			`} else if (jv_get_kind(a) == JV_KIND_ARRAY && jv_get_kind(b) == JV_KIND_ARRAY) {`
			`jv out = jv_array();`
			`for (int i=0; i<jv_array_length(jv_copy(a)); i++) {`
			`jv x = jv_array_get(jv_copy(a), i);`
			`int include = 1;`
			`for (int j=0; j<jv_array_length(jv_copy(b)); j++) {`
			`if (jv_equal(jv_copy(x), jv_array_get(jv_copy(b), j))) {`
			`include = 0;`
			`break;`
			`}`
			`}`
			`if (include)`
			`out = jv_array_append(out, jv_copy(x));`
			`jv_free(x);`
			`}`
			`jv_free(a);`
			`jv_free(b);`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return out;`
Subtraction - as expected for numbers, ruby-style set diff for arrays. 2012-09-10 16:49:25 +01:00			`} else {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return type_error2(a, b, "cannot be subtracted");`
Subtraction - as expected for numbers, ruby-style set diff for arrays. 2012-09-10 16:49:25 +01:00			`}`
			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_multiply(jv input, jv a, jv b) {`
			`jv_free(input);`
Multiplication and division operators. It is an error to use these on anything but numbers. Maybe later implementing python/ruby-style ("a" * 100) might be handy. 2012-09-10 16:57:17 +01:00			`if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return jv_number(jv_number_value(a) * jv_number_value(b));`
Multiplication and division operators. It is an error to use these on anything but numbers. Maybe later implementing python/ruby-style ("a" * 100) might be handy. 2012-09-10 16:57:17 +01:00			`} else {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return type_error2(a, b, "cannot be multiplied");`
Multiplication and division operators. It is an error to use these on anything but numbers. Maybe later implementing python/ruby-style ("a" * 100) might be handy. 2012-09-10 16:57:17 +01:00			`}`
			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_divide(jv input, jv a, jv b) {`
			`jv_free(input);`
Multiplication and division operators. It is an error to use these on anything but numbers. Maybe later implementing python/ruby-style ("a" * 100) might be handy. 2012-09-10 16:57:17 +01:00			`if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return jv_number(jv_number_value(a) / jv_number_value(b));`
Multiplication and division operators. It is an error to use these on anything but numbers. Maybe later implementing python/ruby-style ("a" * 100) might be handy. 2012-09-10 16:57:17 +01:00			`} else {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return type_error2(a, b, "cannot be divided");`
Multiplication and division operators. It is an error to use these on anything but numbers. Maybe later implementing python/ruby-style ("a" * 100) might be handy. 2012-09-10 16:57:17 +01:00			`}`
			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_add(jv array) {`
Implement the 'add' builtin promised by the docs' examples. 2012-09-18 23:32:24 +01:00			`if (jv_get_kind(array) != JV_KIND_ARRAY) {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return type_error(array, "cannot have its elements added");`
Implement the 'add' builtin promised by the docs' examples. 2012-09-18 23:32:24 +01:00			`} else if (jv_array_length(jv_copy(array)) == 0) {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`jv_free(array);`
			`return jv_null();`
Implement the 'add' builtin promised by the docs' examples. 2012-09-18 23:32:24 +01:00			`} else {`
			`jv sum = jv_array_get(jv_copy(array), 0);`
			`for (int i = 1; i < jv_array_length(jv_copy(array)); i++) {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`sum = f_plus(jv_null(), sum, jv_array_get(jv_copy(array), i));`
Implement the 'add' builtin promised by the docs' examples. 2012-09-18 23:32:24 +01:00			`}`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`jv_free(array);`
			`return sum;`
Implement the 'add' builtin promised by the docs' examples. 2012-09-18 23:32:24 +01:00			`}`
			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_equal(jv input, jv a, jv b) {`
			`jv_free(input);`
			`return jv_bool(jv_equal(a, b));`
'==' operator, tests for equality and operator precedence. 2012-09-10 18:08:00 +01:00			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_notequal(jv input, jv a, jv b) {`
			`jv_free(input);`
			`return jv_bool(!jv_equal(a, b));`
Implement 'not equal' (!=) as a binop 2012-10-23 17:01:39 +02:00			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`enum cmp_op {`
			`CMP_OP_LESS,`
			`CMP_OP_GREATER,`
			`CMP_OP_LESSEQ,`
			`CMP_OP_GREATEREQ`
			`};`

			`static jv order_cmp(jv input, jv a, jv b, enum cmp_op op) {`
			`jv_free(input);`
			`int r = jv_cmp(a, b);`
			`return jv_bool((op == CMP_OP_LESS && r < 0) \|\|`
			`(op == CMP_OP_LESSEQ && r <= 0) \|\|`
			`(op == CMP_OP_GREATEREQ && r >= 0) \|\|`
			`(op == CMP_OP_GREATER && r > 0));`
Add <,>,<=,>= binops 2012-10-07 22:34:12 +01:00			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_less(jv input, jv a, jv b) {`
			`return order_cmp(input, a, b, CMP_OP_LESS);`
Add <,>,<=,>= binops 2012-10-07 22:34:12 +01:00			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_greater(jv input, jv a, jv b) {`
			`return order_cmp(input, a, b, CMP_OP_GREATER);`
Add <,>,<=,>= binops 2012-10-07 22:34:12 +01:00			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_lesseq(jv input, jv a, jv b) {`
			`return order_cmp(input, a, b, CMP_OP_LESSEQ);`
Add <,>,<=,>= binops 2012-10-07 22:34:12 +01:00			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_greatereq(jv input, jv a, jv b) {`
			`return order_cmp(input, a, b, CMP_OP_GREATEREQ);`
Add <,>,<=,>= binops 2012-10-07 22:34:12 +01:00			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_contains(jv input, jv a, jv b) {`
			`jv_free(input);`
Implemented contains operator 2012-10-24 11:42:25 -07:00			`jv_kind akind = jv_get_kind(a);`

			`if (akind == jv_get_kind(b)) {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return jv_bool(jv_contains(a, b));`
			`} else {`
			`return type_error2(a, b, "cannot have their containment checked");`
Implemented contains operator 2012-10-24 11:42:25 -07:00			`}`
			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_tonumber(jv input) {`
			`if (jv_get_kind(input) == JV_KIND_NUMBER) {`
			`return input;`
			`}`
			`if (jv_get_kind(input) == JV_KIND_STRING) {`
			`jv parsed = jv_parse(jv_string_value(input));`
			`if (!jv_is_valid(parsed) \|\| jv_get_kind(parsed) == JV_KIND_NUMBER) {`
			`jv_free(input);`
			`return parsed;`
String -> number conversions with "tonumber". 2012-09-10 17:08:13 +01:00			`}`
			`}`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return type_error(input, "cannot be parsed as a number");`
String -> number conversions with "tonumber". 2012-09-10 17:08:13 +01:00			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_length(jv input) {`
			`if (jv_get_kind(input) == JV_KIND_ARRAY) {`
			`return jv_number(jv_array_length(input));`
			`} else if (jv_get_kind(input) == JV_KIND_OBJECT) {`
			`return jv_number(jv_object_length(input));`
			`} else if (jv_get_kind(input) == JV_KIND_STRING) {`
			`return jv_number(jv_string_length(input));`
Builtin function 'length', for arrays/objects/strings. 2012-09-16 11:08:42 +01:00			`} else {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return type_error(input, "has no length");`
Builtin function 'length', for arrays/objects/strings. 2012-09-16 11:08:42 +01:00			`}`
			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_tostring(jv input) {`
			`if (jv_get_kind(input) == JV_KIND_STRING) {`
			`return input;`
Add a "tostring" function. 2012-09-17 20:14:07 +01:00			`} else {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return jv_dump_string(input, 0);`
Add a "tostring" function. 2012-09-17 20:14:07 +01:00			`}`
			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_keys(jv input) {`
			`if (jv_get_kind(input) == JV_KIND_OBJECT \|\| jv_get_kind(input) == JV_KIND_ARRAY) {`
			`return jv_keys(input);`
Add a 'keys' function. Fixes #4. 2012-10-20 00:26:37 +01:00			`} else {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return type_error(input, "has no keys");`
Add a 'keys' function. Fixes #4. 2012-10-20 00:26:37 +01:00			`}`
			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_sort(jv input){`
			`if (jv_get_kind(input) == JV_KIND_ARRAY) {`
			`return jv_sort(input, jv_copy(input));`
Sort function and more general comparison operators. 2012-11-30 20:27:16 +00:00			`} else {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`return type_error(input, "cannot be sorted, as it is not an array");`
Sort function and more general comparison operators. 2012-11-30 20:27:16 +00:00			`}`
			`}`

Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`static jv f_type(jv input) {`
			`jv out = jv_string(jv_kind_name(jv_get_kind(input)));`
			`jv_free(input);`
			`return out;`
Builtin function 'type'. 2012-09-17 23:06:48 +01:00			`}`

Redefine true and false. Define empty, distict from null. This might be the most philosophical commit. I shall ponder it. true, false, null, empty now defined as bytecoded builtins rather than calls out to C functions. 2012-09-17 20:59:34 +01:00			`static struct cfunction function_list[] = {`
Clean up implementation of builtin functions. 2012-12-02 22:12:08 +00:00			`{(cfunction_ptr)f_plus, "_plus", 3},`
			`{(cfunction_ptr)f_minus, "_minus", 3},`
			`{(cfunction_ptr)f_multiply, "_multiply", 3},`
			`{(cfunction_ptr)f_divide, "_divide", 3},`
			`{(cfunction_ptr)f_tonumber, "tonumber", 1},`
			`{(cfunction_ptr)f_tostring, "tostring", 1},`
			`{(cfunction_ptr)f_keys, "keys", 1},`
			`{(cfunction_ptr)f_equal, "_equal", 3},`
			`{(cfunction_ptr)f_notequal, "_notequal", 3},`
			`{(cfunction_ptr)f_less, "_less", 3},`
			`{(cfunction_ptr)f_greater, "_greater", 3},`
			`{(cfunction_ptr)f_lesseq, "_lesseq", 3},`
			`{(cfunction_ptr)f_greatereq, "_greatereq", 3},`
			`{(cfunction_ptr)f_contains, "_contains", 3},`
			`{(cfunction_ptr)f_length, "length", 1},`
			`{(cfunction_ptr)f_type, "type", 1},`
			`{(cfunction_ptr)f_add, "add", 1},`
			`{(cfunction_ptr)f_sort, "sort", 1},`
Most of a C implementation of jq 2012-08-16 01:00:30 +01:00			`};`
Redefine true and false. Define empty, distict from null. This might be the most philosophical commit. I shall ponder it. true, false, null, empty now defined as bytecoded builtins rather than calls out to C functions. 2012-09-17 20:59:34 +01:00
Builtin functions defined in jq. 2012-09-18 10:17:38 +01:00			`static struct symbol_table cbuiltins = {function_list, sizeof(function_list)/sizeof(function_list[0])};`
Bind builtin functions in a slightly less ugly way. 2012-09-16 17:08:56 +01:00
Redefine true and false. Define empty, distict from null. This might be the most philosophical commit. I shall ponder it. true, false, null, empty now defined as bytecoded builtins rather than calls out to C functions. 2012-09-17 20:59:34 +01:00			`typedef block (*bytecoded_builtin)();`
Define bytecoded builtins more concisely. 2012-11-26 18:53:47 +00:00			`struct bytecoded_builtin { const char* name; block code; };`
			`static block bind_bytecoded_builtins(block b) {`
			`struct bytecoded_builtin builtin_defs[] = {`
			`{"empty", gen_op_simple(BACKTRACK)},`
			`{"false", gen_op_const(LOADK, jv_false())},`
			`{"true", gen_op_const(LOADK, jv_true())},`
			`{"null", gen_op_const(LOADK, jv_null())},`
			`{"not", gen_condbranch(gen_op_const(LOADK, jv_false()),`
			`gen_op_const(LOADK, jv_true()))}`
			`};`
			`block builtins = gen_noop();`
			`for (unsigned i=0; i<sizeof(builtin_defs)/sizeof(builtin_defs[0]); i++) {`
			`builtins = BLOCK(builtins, gen_function(builtin_defs[i].name, builtin_defs[i].code));`
			`}`
			`return block_bind(builtins, b, OP_IS_CALL_PSEUDO);`
			`}`
Redefine true and false. Define empty, distict from null. This might be the most philosophical commit. I shall ponder it. true, false, null, empty now defined as bytecoded builtins rather than calls out to C functions. 2012-09-17 20:59:34 +01:00
Builtin functions defined in jq. 2012-09-18 10:17:38 +01:00			`static const char* jq_builtins[] = {`
Add the builtin 'select' function. 2012-09-18 12:58:39 +01:00			`"def map(f): [.[] \| f];",`
			`"def select(f): if f then . else empty end;",`
Builtin functions defined in jq. 2012-09-18 10:17:38 +01:00			`};`

Redefine true and false. Define empty, distict from null. This might be the most philosophical commit. I shall ponder it. true, false, null, empty now defined as bytecoded builtins rather than calls out to C functions. 2012-09-17 20:59:34 +01:00
Bind builtin functions in a slightly less ugly way. 2012-09-16 17:08:56 +01:00			`block builtins_bind(block b) {`
Add the builtin 'select' function. 2012-09-18 12:58:39 +01:00			`for (int i=(int)(sizeof(jq_builtins)/sizeof(jq_builtins[0]))-1; i>=0; i--) {`
Builtin functions defined in jq. 2012-09-18 10:17:38 +01:00			`struct locfile src;`
			`locfile_init(&src, jq_builtins[i], strlen(jq_builtins[i]));`
			`block funcs;`
			`int nerrors = jq_parse_library(&src, &funcs);`
			`assert(!nerrors);`
Add the builtin 'select' function. 2012-09-18 12:58:39 +01:00			`b = block_bind(funcs, b, OP_IS_CALL_PSEUDO);`
Builtin functions defined in jq. 2012-09-18 10:17:38 +01:00			`locfile_free(&src);`
Redefine true and false. Define empty, distict from null. This might be the most philosophical commit. I shall ponder it. true, false, null, empty now defined as bytecoded builtins rather than calls out to C functions. 2012-09-17 20:59:34 +01:00			`}`
Define bytecoded builtins more concisely. 2012-11-26 18:53:47 +00:00			`b = bind_bytecoded_builtins(b);`
Builtin functions defined in jq. 2012-09-18 10:17:38 +01:00			`return gen_cbinding(&cbuiltins, b);`
Bind builtin functions in a slightly less ugly way. 2012-09-16 17:08:56 +01:00			`}`