This file is the short summary of the API changes:

05.03.2014 - Backward compatible
    The sljit_set_target now supports those jumps, which
    does not created with SLJIT_REWRITABLE_JUMP flag.
    Reason: sljit_emit_ijump does not support conditional
    jumps.

03.03.2014 - Non-backward compatible
    SLJIT_MOV_UI cannot be combined with SLJIT_INT_OP.
    Reason: SLJIT_INT_OP flag is not recommended to use
    directly, and SLJIT_IMOV has no sign bit.

29.01.2014 - Backward compatible
    Bits assigned to SLJIT_MEM and SLJIT_IMM flags are changed.
    Reason: the most common cases are fits into one byte now,
    and more registers can be supported in the future.

08.11.2012 - Non-backward compatible
    SLJIT_TEMPORARY_REGx registers are renamed to SLJIT_SCRATCH_REGx.

07.11.2012 - Non-backward compatible
    sljit_emit_cond_value is renamed to sljit_emit_op_flags. An
    extra source argument is added which will be used in the future.

05.11.2012 - Backward compatible
    sljit_emit_cond_value now supports SLJIT_AND and SLJIT_INT_OP
    flags, which makes this function complete.

01.11.2012 - Non-backward compatible
    SLJIT_F* opcodes are renamed to SLJIT_*D to show that
    they are double precision operators. Furthermore
    SLJIT_*S single precision opcodes are added.

01.11.2012 - Non-backward compatible
    Register arguments of operations with SLJIT_INT_OP flag
    must be computed by another operation with SLJIT_INT_OP flag.
    The same way as SLJIT_SINGLE_OP flag works with floating point
    numbers. See the description of SLJIT_INT_OP.

01.11.2012 - Backward compatible
    All operations whose support the SLJIT_INT_OP flag, have an
    alternate name now, which includes the SLJIT_INT_OP. These
    names starting with I.

31.10.2012 - Non-backward compatible
    Renaming sljit_w to sljit_sw, sljit_i to sljit_si, sljit_h
    to sljit_sh, and sljit_b to sljit_sb. Reason: their sign
    bit is part of the type now.

20.10.2012 - Non-backward compatible
    Renaming SLJIT_C_FLOAT_NAN to SLJIT_C_FLOAT_UNORDERED.
    Reason: all architectures call these unordered comparions.
